2024
- Y. Shao, R. Lupoiu, J. Jiang, Y. Zhou, T. D. Milster, and J. A. Fan, “Multifunctional Spaceplates for Optical Aberration Correction,” ACS Photonics, 2024.
[Bibtex]@article{shao2024multifunctional, title={{Multifunctional Spaceplates for Optical Aberration Correction}}, author={Shao, Yixuan and Lupoiu, Robert and Jiang, Jiaqi and Zhou, You and Milster, Tom D and Fan, Jonathan A}, journal={{ACS Photonics}}, year={2024}, publisher={ACS Publications} }
- Y. Zhou, Y. Shao, C. Mao, and J. A. Fan, “Inverse-designed metasurfaces with facile fabrication parameters,” Journal of Optics, 2024.
[Bibtex]@article{zhou2024inverse, title={{Inverse-designed metasurfaces with facile fabrication parameters}}, author={Zhou, You and Shao, Yixuan and Mao, Chenkai and Fan, Jonathan A}, journal={{Journal of Optics}}, year={2024} }
- A. I. Kuznetsov, M. L. Brongersma, J. Yao, M. K. Chen, U. Levy, D. P. Tsai, N. I. Zheludev, A. Faraon, A. Arbabi, N. Yu, and others, “Roadmap for Optical Metasurfaces,” ACS photonics, 2024.
[Bibtex]@article{kuznetsov2024roadmap, title={{Roadmap for Optical Metasurfaces}}, author={Kuznetsov, Arseniy I and Brongersma, Mark L and Yao, Jin and Chen, Mu Ku and Levy, Uriel and Tsai, Din Ping and Zheludev, Nikolay I and Faraon, Andrei and Arbabi, Amir and Yu, Nanfang and others}, journal={{ACS photonics}}, year={2024}, publisher={ACS Publications} }
- Y. Zhou, C. Mao, E. Gershnabel, M. Chen, and J. A. Fan, “Large-Area, High-Numerical-Aperture, Freeform Metasurfaces,” Laser & Photonics Reviews, p. 2300988, 2024.
[Bibtex]@article{zhou2024large, title={{Large-Area, High-Numerical-Aperture, Freeform Metasurfaces}}, author={Zhou, You and Mao, Chenkai and Gershnabel, Erez and Chen, Mingkun and Fan, Jonathan A}, journal={{Laser \& Photonics Reviews}}, pages={2300988}, year={2024}, publisher={Wiley Online Library} }
2023
- S. Yu, H. Yao, G. Hu, Y. Jiang, X. Zheng, S. Fan, T. F. Heinz, and J. A. Fan, “Hyperbolic Polaritonic Rulers Based on van der Waals $\alpha$-MoO3 Waveguides and Resonators,” ACS nano, vol. 17, iss. 22, p. 23057–23064, 2023.
[Bibtex]@article{yu2023hyperbolic, title={{Hyperbolic Polaritonic Rulers Based on van der Waals $\alpha$-MoO3 Waveguides and Resonators}}, author={Yu, Shang-Jie and Yao, Helen and Hu, Guangwei and Jiang, Yue and Zheng, Xiaolin and Fan, Shanhui and Heinz, Tony F and Fan, Jonathan A}, journal={{ACS nano}}, volume={17}, number={22}, pages={23057--23064}, year={2023}, publisher={ACS Publications} }
- Y. Zhou and J. A. Fan, “Polychromatic metasurfaces for complete control of phase and polarization in the mid-infrared,” Light: Science & Applications, vol. 12, iss. 1, p. 249, 2023.
[Bibtex]@article{zhou2023polychromatic, title={{Polychromatic metasurfaces for complete control of phase and polarization in the mid-infrared}}, author={Zhou, You and Fan, Jonathan A}, journal={{Light: Science \& Applications}}, volume={12}, number={1}, pages={249}, year={2023}, publisher={Nature Publishing Group UK London} }
- T. Dai, T. Phan, E. W. Wang, S. Kwon, J. Son, M. Lee, and J. A. Fan, “Snapshot Mueller spectropolarimeter imager,” Microsystems & Nanoengineering, vol. 9, iss. 1, p. 125, 2023.
[Bibtex]@article{dai2023snapshot, title={{Snapshot Mueller spectropolarimeter imager}}, author={Dai, Tianxiang and Phan, Thaibao and Wang, Evan W and Kwon, Soonyang and Son, Jaehyeon and Lee, Myungjun and Fan, Jonathan A}, journal={{Microsystems \& Nanoengineering}}, volume={9}, number={1}, pages={125}, year={2023}, publisher={Nature Publishing Group UK London} }
- J. Jiang and J. A. Fan, “Large-scale global optimization of ultra-high dimensional non-convex landscapes based on generative neural networks,” arXiv preprint arXiv:2307.04065, 2023.
[Bibtex]@article{jiang2023large, title={{Large-scale global optimization of ultra-high dimensional non-convex landscapes based on generative neural networks}}, author={Jiang, Jiaqi and Fan, Jonathan A}, journal={{arXiv preprint arXiv:2307.04065}}, year={2023} }
- E. W. Wang, S. Yu, T. Phan, S. Dhuey, and J. A. Fan, “Arbitrary achromatic polarization control with reconfigurable metasurface systems,” Laser & Photonics Reviews, vol. 17, iss. 7, p. 2200926, 2023.
[Bibtex]@article{wang2023arbitrary, title={{Arbitrary achromatic polarization control with reconfigurable metasurface systems}}, author={Wang, Evan W and Yu, Shang-Jie and Phan, Thaibao and Dhuey, Scott and Fan, Jonathan A}, journal={{Laser \& Photonics Reviews}}, volume={17}, number={7}, pages={2200926}, year={2023}, publisher={Wiley Online Library} }
- Q. Huang, L. T. Gan, and J. A. Fan, “Conformal volumetric grayscale metamaterials,” Advanced Materials, vol. 35, iss. 12, p. 2204688, 2023.
[Bibtex]@article{huang2023conformal, title={{Conformal volumetric grayscale metamaterials}}, author={Huang, Qinglan and Gan, Lucia T and Fan, Jonathan A}, journal={{Advanced Materials}}, volume={35}, number={12}, pages={2204688}, year={2023}, publisher={Wiley Online Library} }
2022
- E. Gershnabel, M. Chen, C. Mao, E. W. Wang, P. Lalanne, and J. A. Fan, “Reparameterization Approach to Gradient-Based Inverse Design of Three-Dimensional Nanophotonic Devices,” ACS Photonics, vol. 10, iss. 4, p. 815–823, 2022.
[Bibtex]@article{gershnabel2022reparameterization, title={{Reparameterization Approach to Gradient-Based Inverse Design of Three-Dimensional Nanophotonic Devices}}, author={Gershnabel, Erez and Chen, Mingkun and Mao, Chenkai and Wang, Evan W and Lalanne, Philippe and Fan, Jonathan A}, journal={{ACS Photonics}}, volume={10}, number={4}, pages={815--823}, year={2022}, publisher={ACS Publications} }
- M. Chen, R. Lupoiu, C. Mao, D. Huang, J. Jiang, P. Lalanne, and J. A. Fan, “High speed simulation and freeform optimization of nanophotonic devices with physics-augmented deep learning,” ACS Photonics, vol. 9, iss. 9, p. 3110–3123, 2022.
[Bibtex]@article{chen2022high, title={{High speed simulation and freeform optimization of nanophotonic devices with physics-augmented deep learning}}, author={Chen, Mingkun and Lupoiu, Robert and Mao, Chenkai and Huang, Der-Han and Jiang, Jiaqi and Lalanne, Philippe and Fan, Jonathan A}, journal={{ACS Photonics}}, volume={9}, number={9}, pages={3110--3123}, year={2022}, publisher={ACS Publications} }
- M. Chen, J. Jiang, and J. A. Fan, “Algorithm-driven paradigms for freeform optical engineering,” ACS Photonics, vol. 9, iss. 9, p. 2860–2871, 2022.
[Bibtex]@article{chen2022algorithm, title={{Algorithm-driven paradigms for freeform optical engineering}}, author={Chen, Mingkun and Jiang, Jiaqi and Fan, Jonathan A}, journal={{ACS Photonics}}, volume={9}, number={9}, pages={2860--2871}, year={2022}, publisher={ACS Publications} }
- J. A. Roberts, P. Ho, S. Yu, and J. A. Fan, “Electrically driven hyperbolic nanophotonic resonators as high speed, spectrally selective thermal radiators,” Nano Letters, vol. 22, iss. 14, p. 5832–5840, 2022.
[Bibtex]@article{roberts2022electrically, title={{Electrically driven hyperbolic nanophotonic resonators as high speed, spectrally selective thermal radiators}}, author={Roberts, John Andris and Ho, Po-Hsun and Yu, Shang-Jie and Fan, Jonathan A}, journal={{Nano Letters}}, volume={22}, number={14}, pages={5832--5840}, year={2022}, publisher={ACS Publications} }
- R. Lupoiu, S. S. Ng, J. A. Fan, and K. Walus, “Automated atomic silicon quantum dot circuit design via deep reinforcement learning,” arXiv preprint arXiv:2204.06288, 2022.
[Bibtex]@article{lupoiu2022automated, title={{Automated atomic silicon quantum dot circuit design via deep reinforcement learning}}, author={Lupoiu, Robert and Ng, Samuel SH and Fan, Jonathan A and Walus, Konrad}, journal={{arXiv preprint arXiv:2204.06288}}, year={2022} }
- E. W. Wang, T. Phan, S. Yu, S. Dhuey, and J. A. Fan, “Dynamic circular birefringence response with fractured geometric phase metasurface systems,” Proceedings of the National Academy of Sciences, vol. 119, iss. 12, p. e2122085119, 2022.
[Bibtex]@article{wang2022dynamic, author = {Evan W. Wang and Thaibao Phan and Shang-Jie Yu and Scott Dhuey and Jonathan A. Fan }, title = {{Dynamic circular birefringence response with fractured geometric phase metasurface systems}}, journal = {{Proceedings of the National Academy of Sciences}}, volume = {119}, number = {12}, pages = {e2122085119}, year = {2022}, doi = {10.1073/pnas.2122085119}, URL = {https://www.pnas.org/doi/abs/10.1073/pnas.2122085119}, eprint = {https://www.pnas.org/doi/pdf/10.1073/pnas.2122085119} }
- M. T. Kiani, L. T. Gan, R. Traylor, R. Yang, C. M. Barr, K. Hattar, J. A. Fan, and W. X. Gu, “In Situ TEM tensile testing of bicrystals with tailored misorientation angles,” Acta Materialia, vol. 224, p. 117505, 2022.
[Bibtex]@article{kiani2022situ, title={{In Situ TEM tensile testing of bicrystals with tailored misorientation angles}}, author={Kiani, Mehrdad T and Gan, Lucia T and Traylor, Rachel and Yang, Rui and Barr, Christopher M and Hattar, Khalid and Fan, Jonathan A and Gu, X Wendy}, journal={{Acta Materialia}}, volume={224}, pages={117505}, year={2022}, publisher={Elsevier} }
- S. Yu, Y. Jiang, J. A. Roberts, M. A. Huber, H. Yao, X. Shi, H. A. Bechtel, S. N. Gilbert Corder, T. F. Heinz, X. Zheng, and others, “Ultrahigh-Quality Infrared Polaritonic Resonators Based on Bottom-Up-Synthesized van der Waals Nanoribbons,” ACS nano, 2022.
[Bibtex]@article{yu2022ultrahigh, title={{Ultrahigh-Quality Infrared Polaritonic Resonators Based on Bottom-Up-Synthesized van der Waals Nanoribbons}}, author={Yu, Shang-Jie and Jiang, Yue and Roberts, John A and Huber, Markus A and Yao, Helen and Shi, Xinjian and Bechtel, Hans A and Gilbert Corder, Stephanie N and Heinz, Tony F and Zheng, Xiaolin and others}, journal={{ACS nano}}, year={2022}, publisher={ACS Publications} }
2021
- Y. Meng, Y. Chen, L. Lu, Y. Ding, A. Cusano, J. A. Fan, Q. Hu, K. Wang, Z. Xie, Z. Liu, and others, “Optical meta-waveguides for integrated photonics and beyond,” Light: Science & Applications, vol. 10, iss. 1, p. 1–44, 2021.
[Bibtex]@article{meng2021optical, title={{Optical meta-waveguides for integrated photonics and beyond}}, author={Meng, Yuan and Chen, Yizhen and Lu, Longhui and Ding, Yimin and Cusano, Andrea and Fan, Jonathan A and Hu, Qiaomu and Wang, Kaiyuan and Xie, Zhenwei and Liu, Zhoutian and others}, journal={{Light: Science \& Applications}}, volume={10}, number={1}, pages={1--44}, year={2021}, publisher={Nature Publishing Group} }
- C. I. Evans, L. T. Gan, R. Yang, M. Abbasi, X. Wang, R. Traylor, J. A. Fan, and D. Natelson, “Detection of Trace Impurity Gradients in Noble Metals by the Photothermoelectric Effect,” The Journal of Physical Chemistry C, vol. 125, iss. 31, pp. 17509-17517, 2021.
[Bibtex]@article{evans2021detection, title={{Detection of Trace Impurity Gradients in Noble Metals by the Photothermoelectric Effect}}, author={Evans, Charlotte I and Gan, Lucia T and Yang, Rui and Abbasi, Mahdiyeh and Wang, Xifan and Traylor, Rachel and Fan, Jonathan A and Natelson, Douglas}, journal={{The Journal of Physical Chemistry C}}, volume = {125}, number = {31}, pages = {17509-17517}, year={2021}, publisher={ACS Publications} }
- S. Kim, D. Lee, B. Wang, S. Yu, K. Watanabe, T. Taniguchi, J. A. Fan, J. Xue, and K. Lee, “Raman spectroscopic study of artificially twisted and non-twisted trilayer graphene,” Applied Physics Letters, vol. 118, iss. 13, p. 133101, 2021.
[Bibtex]@article{kim2021raman, title={Raman spectroscopic study of artificially twisted and non-twisted trilayer graphene}, author={Kim, Sanghyun and Lee, Donghyeon and Wang, Binbin and Yu, Shang-Jie and Watanabe, Kenji and Taniguchi, Takashi and Fan, Jonathan A and Xue, Jiamin and Lee, Kayoung}, journal={{Applied Physics Letters}}, volume={118}, number={13}, pages={133101}, year={2021}, publisher={AIP Publishing LLC} }
- D. S. Baser, Z. Cheng, J. A. Fan, and L. Fan, “Codoping Mg-Mn Based Oxygen Carrier with Lithium and Tungsten for Enhanced C2 Yield in a Chemical Looping Oxidative Coupling of Methane System,” ACS Sustainable Chemistry & Engineering, 2021.
[Bibtex]@article{baser2021codoping, title={{Codoping Mg-Mn Based Oxygen Carrier with Lithium and Tungsten for Enhanced C2 Yield in a Chemical Looping Oxidative Coupling of Methane System}}, author={Baser, Deven S and Cheng, Zhuo and Fan, Jonathan A and Fan, Liang-Shih}, journal={{ACS Sustainable Chemistry \& Engineering}}, year={2021}, publisher={ACS Publications} }
- L. Qin, Y. Chen, M. Guo, Y. Liu, J. A. Fan, and L. Fan, “Driving Towards Highly Selective and Coking-Resistant Natural Gas Reforming Through a Hybrid Oxygen Carrier Design,” ChemCatChem, vol. 13, iss. 2, p. 617–626, 2021.
[Bibtex]@article{qin2021driving, title={{Driving Towards Highly Selective and Coking-Resistant Natural Gas Reforming Through a Hybrid Oxygen Carrier Design}}, author={Qin, Lang and Chen, Yu-Yen and Guo, Mengqing and Liu, Yan and Fan, Jonathan A and Fan, Liang-Shih}, journal={{ChemCatChem}}, volume={13}, number={2}, pages={617--626}, year={2021}, publisher={WILEY-V CH VERLAG GMBH POSTFACH 101161, 69451 WEINHEIM, GERMANY} }
- V. Shah, Z. Cheng, D. S. Baser, J. A. Fan, and L. Fan, “Highly Selective Production of Syngas from Chemical Looping Reforming of Methane with CO2 Utilization on MgO-supported Calcium Ferrite Redox Materials,” Applied Energy, vol. 282, p. 116111, 2021.
[Bibtex]@article{shah2021highly, title={{Highly Selective Production of Syngas from Chemical Looping Reforming of Methane with CO2 Utilization on MgO-supported Calcium Ferrite Redox Materials}}, author={Shah, Vedant and Cheng, Zhuo and Baser, Deven S and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Applied Energy}}, volume={282}, pages={116111}, year={2021}, publisher={Elsevier} }
- J. Jiang, M. Chen, and J. A. Fan, “Deep neural networks for the evaluation and design of photonic devices,” Nature reviews materials, vol. 6, iss. 8, p. 679–700, 2021.
[Bibtex]@article{jiang2021deep, title={Deep neural networks for the evaluation and design of photonic devices}, author={Jiang, Jiaqi and Chen, Mingkun and Fan, Jonathan A}, journal={Nature Reviews Materials}, volume={6}, number={8}, pages={679--700}, year={2021}, publisher={Nature Publishing Group} }
2020
- T. Phan, G. Zulauf, J. A. Fan, and J. M. Rivas-Davila, “1 kW, Multi-MHz Wireless Charging for Electric Transportation,” in 2020 IEEE 21st Workshop on Control and Modeling for Power Electronics (COMPEL), 2020, p. 1–7.
[Bibtex]@inproceedings{phan20201, title={{1 kW, Multi-MHz Wireless Charging for Electric Transportation}}, author={Phan, Thaibao and Zulauf, Grayson and Fan, Jonathan A and Rivas-Davila, Juan M}, booktitle={{2020 IEEE 21st Workshop on Control and Modeling for Power Electronics (COMPEL)}}, pages={1--7}, year={2020}, organization={IEEE} }
- M. Chen, J. Jiang, and J. A. Fan, “Design space reparameterization enforces hard geometric constraints in inverse-designed nanophotonic devices,” ACS Photonics, vol. 7, iss. 11, p. 3141–3151, 2020.
[Bibtex]@article{chen2020design, title={Design space reparameterization enforces hard geometric constraints in inverse-designed nanophotonic devices}, author={Chen, Mingkun and Jiang, Jiaqi and Fan, Jonathan A}, journal={{ACS Photonics}}, volume={7}, number={11}, pages={3141--3151}, year={2020}, publisher={ACS Publications} }
- J. A. Roberts, P. Ho, S. Yu, X. Wu, Y. Luo, W. L. Wilson, A. L. Falk, and J. A. Fan, “Multiple Tunable Hyperbolic Resonances in Broadband Infrared Carbon-Nanotube Metamaterials,” Physical Review Applied, vol. 14, iss. 4, p. 44006, 2020.
[Bibtex]@article{roberts2020multiple, title={{Multiple Tunable Hyperbolic Resonances in Broadband Infrared Carbon-Nanotube Metamaterials}}, author={Roberts, John Andris and Ho, Po-Hsun and Yu, Shang-Jie and Wu, Xiangjin and Luo, Yue and Wilson, William L and Falk, Abram L and Fan, Jonathan A}, journal={{Physical Review Applied}}, volume={14}, number={4}, pages={044006}, year={2020}, publisher={APS} }
- C. I. Evans, R. Yang, L. T. Gan, M. Abbasi, X. Wang, R. Traylor, J. A. Fan, and D. Natelson, “Thermoelectric response from grain boundaries and lattice distortions in crystalline gold devices,” Proceedings of the National Academy of Sciences, vol. 117, iss. 38, p. 23350–23355, 2020.
[Bibtex]@article{evans2020thermoelectric, title={Thermoelectric response from grain boundaries and lattice distortions in crystalline gold devices}, author={Evans, Charlotte I and Yang, Rui and Gan, Lucia T and Abbasi, Mahdiyeh and Wang, Xifan and Traylor, Rachel and Fan, Jonathan A and Natelson, Douglas}, journal={{Proceedings of the National Academy of Sciences}}, volume={117}, number={38}, pages={23350--23355}, year={2020}, publisher={National Acad Sciences} }
- J. Jiang and J. A. Fan, “Multiobjective and categorical global optimization of photonic structures based on ResNet generative neural networks,” Nanophotonics, 2020.
[Bibtex]@article{jiang2020multiobjective, title={{Multiobjective and categorical global optimization of photonic structures based on ResNet generative neural networks}}, author={Jiang, Jiaqi and Fan, Jonathan A}, journal={Nanophotonics}, year={2020}, publisher={De Gruyter} }
- Y. Liu, L. Qin, J. Pan, Y. Chen, J. Goetze, D. Xu, J. A. Fan, and L. Fan, “SBA-16-Mediated Nanoparticle Enabling Accelerated Kinetics in Cyclic Methane Conversion to Syngas at Low Temperatures,” ACS Applied Energy Materials, 2020.
[Bibtex]@article{liu2020sba, title={{SBA-16-Mediated Nanoparticle Enabling Accelerated Kinetics in Cyclic Methane Conversion to Syngas at Low Temperatures}}, author={Liu, Yan and Qin, Lang and Pan, Jianhua and Chen, Yu-Yen and Goetze, Josh and Xu, Dikai and Fan, Jonathan A and Fan, Liang-Shih}, journal={{ACS Applied Energy Materials}}, year={2020}, publisher={ACS Publications} }
- M. M. Elsawy, S. Lanteri, R. Duvigneau, J. A. Fan, and P. Genevet, “Numerical Optimization Methods for Metasurfaces,” Laser & Photonics Reviews, p. 1900445, 2020.
[Bibtex]@article{elsawy2020numerical, title={{Numerical Optimization Methods for Metasurfaces}}, author={Elsawy, Mahmoud MR and Lanteri, St{\'e}phane and Duvigneau, R{\'e}gis and Fan, Jonathan A and Genevet, Patrice}, journal={{Laser \& Photonics Reviews}}, pages={1900445}, year={2020}, publisher={Wiley Online Library} }
- F. Wen, J. Jiang, and J. A. Fan, “Robust freeform metasurface design based on progressively growing generative networks,” ACS Photonics, 2020.
[Bibtex]@article{wen2020robust, title={Robust freeform metasurface design based on progressively growing generative networks}, author={Wen, Fufang and Jiang, Jiaqi and Fan, Jonathan A}, journal={{ACS Photonics}}, year={2020}, publisher={ACS Publications} }
- J. A. Fan, “Freeform metasurface design based on topology optimization,” MRS Bulletin, vol. 45, iss. 3, p. 196–201, 2020.
[Bibtex]@article{fan2020freeform, title={Freeform metasurface design based on topology optimization}, author={Fan, Jonathan A}, journal={{MRS Bulletin}}, volume={45}, number={3}, pages={196--201}, year={2020}, publisher={Cambridge University Press} }
- J. Jiang, R. Lupoiu, E. W. Wang, D. Sell, J. P. Hugonin, P. Lalanne, and J. A. Fan, “Metanet: a new paradigm for data sharing in photonics research,” Optics Express, vol. 28, iss. 9, p. 13670–13681, 2020.
[Bibtex]@article{jiang2020metanet, title={MetaNet: a new paradigm for data sharing in photonics research}, author={Jiang, Jiaqi and Lupoiu, Robert and Wang, Evan W and Sell, David and Hugonin, Jean Paul and Lalanne, Philippe and Fan, Jonathan A}, journal={{Optics Express}}, volume={28}, number={9}, pages={13670--13681}, year={2020}, publisher={Optical Society of America} }
- L. T. Gan, L. H. Blumenschein, Z. Huang, A. M. Okamura, E. W. Hawkes, and J. A. Fan, “3D Electromagnetic Reconfiguration Enabled by Soft Continuum Robots,” IEEE Robotics and Automation Letters, vol. 5, iss. 2, p. 1704–1711, 2020.
[Bibtex]@article{gan20203d, title={{3D Electromagnetic Reconfiguration Enabled by Soft Continuum Robots}}, author={Gan, Lucia T and Blumenschein, Laura H and Huang, Zhe and Okamura, Allison M and Hawkes, Elliot W and Fan, Jonathan A}, journal={{IEEE Robotics and Automation Letters}}, volume={5}, number={2}, pages={1704--1711}, year={2020}, publisher={IEEE} }
- S. Schöche, P. Ho, J. A. Roberts, S. J. Yu, J. A. Fan, and A. L. Falk, “Mid-IR and UV-Vis-NIR Mueller matrix ellipsometry characterization of tunable hyperbolic metamaterials based on self-assembled carbon nanotubes,” Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena, vol. 38, iss. 1, p. 14015, 2020.
[Bibtex]@article{schoche2020mid, title={{Mid-IR and UV-Vis-NIR Mueller matrix ellipsometry characterization of tunable hyperbolic metamaterials based on self-assembled carbon nanotubes}}, author={Sch{\"o}che, Stefan and Ho, Po-Hsun and Roberts, John A and Yu, Shangjie J and Fan, Jonathan A and Falk, Abram L}, journal={{Journal of Vacuum Science \& Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena}}, volume={38}, number={1}, pages={014015}, year={2020}, publisher={American Vacuum Society} }
- Z. Cheng, D. S. Baser, V. Shah, J. A. Fan, and L. Fan, “Mechanistic Insight into Hydrogen-Assisted Carbon Dioxide Reduction with Ilmenite,” Energy & Fuels, 2020.
[Bibtex]@article{cheng2020mechanistic, title={{Mechanistic Insight into Hydrogen-Assisted Carbon Dioxide Reduction with Ilmenite}}, author={Cheng, Zhuo and Baser, Deven S and Shah, Vedant and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Energy \& Fuels}}, year={2020}, publisher={ACS Publications} }
- L. Qin, Z. Cheng, D. Baser, T. Goldenbaum, J. A. Fan, and L. Fan, “Cyclic redox scheme towards shale gas reforming: a review and perspectives,” Reaction Chemistry & Engineering, 2020.
[Bibtex]@article{qin2020cyclic, title={Cyclic redox scheme towards shale gas reforming: a review and perspectives}, author={Qin, Lang and Cheng, Zhuo and Baser, Deven and Goldenbaum, Tyler and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Reaction Chemistry \& Engineering}}, year={2020}, publisher={Royal Society of Chemistry} }
2019
- Y. Liu, L. Qin, Z. Cheng, J. W. Goetze, F. Kong, J. A. Fan, and L. Fan, “Near 100% CO selectivity in nanoscaled iron-based oxygen carriers for chemical looping methane partial oxidation,” Nature Communications, vol. 10, iss. 1, p. 1–6, 2019.
[Bibtex]@article{liu2019near, title={{Near 100% CO selectivity in nanoscaled iron-based oxygen carriers for chemical looping methane partial oxidation}}, author={Liu, Yan and Qin, Lang and Cheng, Zhuo and Goetze, Josh W and Kong, Fanhe and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Nature Communications}}, volume={10}, number={1}, pages={1--6}, year={2019}, publisher={Nature Publishing Group} }
- J. Jiang and J. A. Fan, “Simulator-based training of generative neural networks for the inverse design of metasurfaces,” Nanophotonics, 2019.
[Bibtex]@article{jiang2019simulator, title={Simulator-based training of generative neural networks for the inverse design of metasurfaces}, author={Jiang, Jiaqi and Fan, Jonathan A}, journal={Nanophotonics}, year={2019}, publisher={De Gruyter} }
- J. Jiang, D. Sell, S. Hoyer, J. Hickey, J. Yang, and J. A. Fan, “Free-form diffractive metagrating design based on generative adversarial networks,” ACS Nano, vol. 13, iss. 8, p. 8872–8878, 2019.
[Bibtex]@article{jiang2019free, title={Free-form diffractive metagrating design based on generative adversarial networks}, author={Jiang, Jiaqi and Sell, David and Hoyer, Stephan and Hickey, Jason and Yang, Jianji and Fan, Jonathan A}, journal={{ACS Nano}}, volume={13}, number={8}, pages={8872--8878}, year={2019}, publisher={ACS Publications} }
- J. Jiang and J. A. Fan, “Global Optimization of Dielectric Metasurfaces Using a Physics-Driven Neural Network,” Nano Letters, vol. 19, iss. 8, p. 5366–5372, 2019.
[Bibtex]@article{jiang2019global, author={Jiang, Jiaqi and Fan, Jonathan A}, title={{Global Optimization of Dielectric Metasurfaces Using a Physics-Driven Neural Network}}, journal={{Nano Letters}}, volume={19}, number={8}, pages={5366--5372}, year={2019}, publisher={ACS Publications} }
- L. T. Gan, R. Yang, R. Traylor, W. Cai, W. D. Nix, and J. A. Fan, “High-Throughput Growth of Microscale Gold Bicrystals for Single-Grain-Boundary Studies,” Advanced Materials, p. 1902189, 2019.
[Bibtex]@article{gan2019high, title={{High-Throughput Growth of Microscale Gold Bicrystals for Single-Grain-Boundary Studies}}, author={Gan, Lucia T and Yang, Rui and Traylor, Rachel and Cai, Wei and Nix, William D and Fan, Jonathan A}, journal={{Advanced Materials}}, pages={1902189}, year={2019}, publisher={Wiley Online Library} }
- M. Guo, Z. Cheng, Y. Liu, L. Qin, J. Geotze, J. A. Fan, and L. Fan, “Cobalt Doping Modification for Enhanced Methane Conversion at Low Temperature in Chemical Looping Reforming Systems,” Catalysis Today, 2019.
[Bibtex]@article{guo2019cobalt, title={{Cobalt Doping Modification for Enhanced Methane Conversion at Low Temperature in Chemical Looping Reforming Systems}}, author={Guo, Mengqing and Cheng, Zhuo and Liu, Yan and Qin, Lang and Geotze, Josh and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Catalysis Today}}, year={2019}, publisher={Elsevier} }
- T. Phan, D. Sell, E. W. Wang, S. Doshay, K. Edee, J. Yang, and J. A. Fan, “High-efficiency, large-area, topology-optimized metasurfaces,” Light: Science & Applications, vol. 8, iss. 1, p. 48, 2019.
[Bibtex]@article{phan2019high, title={High-efficiency, large-area, topology-optimized metasurfaces}, author={Phan, Thaibao and Sell, David and Wang, Evan W and Doshay, Sage and Edee, Kofi and Yang, Jianji and Fan, Jonathan A}, journal={{Light: Science \& Applications}}, volume={8}, number={1}, pages={48}, year={2019}, publisher={Nature Publishing Group} }
- K. Edee, M. Benrhouma, M. Antezza, J. A. Fan, and B. Guizal, “Coupling between subwavelength nano-slit lattice modes and metal-insulator-graphene cavity modes: a semi-analytical model,” OSA Continuum, vol. 2, iss. 4, p. 1296–1309, 2019.
[Bibtex]@article{edee2019coupling, title={Coupling between subwavelength nano-slit lattice modes and metal-insulator-graphene cavity modes: a semi-analytical model}, author={Edee, Kofi and Benrhouma, Maha and Antezza, Mauro and Fan, Jonathan Albert and Guizal, Brahim}, journal={{OSA Continuum}}, volume={2}, number={4}, pages={1296--1309}, year={2019}, publisher={Optical Society of America} }
- J. A. Roberts, S. Yu, P. Ho, S. Schoeche, A. L. Falk, and J. A. Fan, “Tunable Hyperbolic Metamaterials Based on Self-Assembled Carbon Nanotubes,” Nano Letters, vol. 19, iss. 5, p. 3131–3137, 2019.
[Bibtex]@article{roberts2019tunable, title={{Tunable Hyperbolic Metamaterials Based on Self-Assembled Carbon Nanotubes}}, author={Roberts, John Andris and Yu, Shang-Jie and Ho, Po-Hsun and Schoeche, Stefan and Falk, Abram L and Fan, Jonathan A}, journal={{Nano Letters}}, volume = {19}, number = {5}, pages = {3131--3137}, year = {2019}, publisher={ACS Publications} }
- S. D. Campbell, D. Sell, R. P. Jenkins, E. B. Whiting, J. A. Fan, and D. H. Werner, “Review of numerical optimization techniques for meta-device design,” Optical Materials Express, vol. 9, iss. 4, p. 1842–1863, 2019.
[Bibtex]@article{campbell2019review, title={Review of numerical optimization techniques for meta-device design}, author={Campbell, Sawyer D and Sell, David and Jenkins, Ronald P and Whiting, Eric B and Fan, Jonathan A and Werner, Douglas H}, journal={{Optical Materials Express}}, volume={9}, number={4}, pages={1842--1863}, year={2019}, publisher={Optical Society of America} }
- R. Yang, H. Li, K. K. Smithe, T. R. Kim, K. Okabe, E. Pop, J. A. Fan, and P. H-S. Wong, “Ternary content-addressable memory with MoS2 transistors for massively parallel data search,” Nature Electronics, p. 1, 2019.
[Bibtex]@article{yang2019ternary, title={{Ternary content-addressable memory with MoS2 transistors for massively parallel data search}}, author={Yang, Rui and Li, Haitong and Smithe, Kirby KH and Kim, Taeho R and Okabe, Kye and Pop, Eric and Fan, Jonathan A and Wong, H-S Philip}, journal={{Nature Electronics}}, pages={1}, year={2019}, publisher={Nature Publishing Group} }
- L. Tian, B. Zimmerman, A. Akhtar, K. J. Yu, M. Moore, J. Wu, R. J. Larsen, J. W. Lee, J. Li, Y. Liu, and others, “Large-area MRI-compatible epidermal electronic interfaces for prosthetic control and cognitive monitoring,” Nature Biomedical Engineering, p. 1, 2019.
[Bibtex]@article{tian2019large, title={{Large-area MRI-compatible epidermal electronic interfaces for prosthetic control and cognitive monitoring}}, author={Tian, Limei and Zimmerman, Benjamin and Akhtar, Aadeel and Yu, Ki Jun and Moore, Matthew and Wu, Jian and Larsen, Ryan J and Lee, Jung Woo and Li, Jinghua and Liu, Yuhao and others}, journal={{Nature Biomedical Engineering}}, pages={1}, year={2019}, publisher={Nature Publishing Group} }
- E. W. Wang, D. Sell, T. Phan, and J. A. Fan, “Robust design of topology-optimized metasurfaces,” Optical Materials Express, vol. 9, iss. 2, p. 469–482, 2019.
[Bibtex]@article{wang2019robust, title={Robust design of topology-optimized metasurfaces}, author={Wang, Evan W and Sell, David and Phan, Thaibao and Fan, Jonathan A}, journal={{Optical Materials Express}}, volume={9}, number={2}, pages={469--482}, year={2019}, publisher={Optical Society of America} }
2018
- L. Qin, M. Guo, Y. Liu, Z. Cheng, J. A. Fan, and L. Fan, “Enhanced methane conversion in chemical looping partial oxidation systems using a copper doping modification,” Applied Catalysis B: Environmental, vol. 235, p. 143–149, 2018.
[Bibtex]@article{qin2018enhanced, title={Enhanced methane conversion in chemical looping partial oxidation systems using a copper doping modification}, author={Qin, Lang and Guo, Mengqing and Liu, Yan and Cheng, Zhuo and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Applied Catalysis B: Environmental}}, volume={235}, pages={143--149}, year={2018}, publisher={Elsevier} }
- L. Zeng, Z. Cheng, J. A. Fan, L. Fan, and J. Gong, “Metal oxide redox chemistry for chemical looping processes,” Nature Reviews Chemistry, p. 1, 2018.
[Bibtex]@article{zeng2018metal, title={Metal oxide redox chemistry for chemical looping processes}, author={Zeng, Liang and Cheng, Zhuo and Fan, Jonathan A and Fan, Liang-Shih and Gong, Jinlong}, journal={{Nature Reviews Chemistry}}, pages={1}, year={2018}, publisher={Nature Publishing Group} }
- L. Ding, M. S. Ukhtary, M. Chubarov, T. H. Choudhury, F. Zhang, R. Yang, A. Zhang, J. A. Fan, M. Terrones, J. M. Redwing, and others, “Understanding Interlayer Coupling in TMD-hBN Heterostructure by Raman Spectroscopy,” IEEE Transactions on Electron Devices, iss. 99, 2018.
[Bibtex]@article{ding2018understanding, title={{Understanding Interlayer Coupling in TMD-hBN Heterostructure by Raman Spectroscopy}}, author={Ding, Li and Ukhtary, Muhammad Shoufie and Chubarov, Mikhail and Choudhury, Tanushree H and Zhang, Fu and Yang, Rui and Zhang, Ao and Fan, Jonathan A and Terrones, Mauricio and Redwing, Joan M and others}, journal={{IEEE Transactions on Electron Devices}}, number={99}, year={2018}, publisher={IEEE} }
- Z. Cheng, D. S. Baser, S. G. Nadgouda, L. Qin, J. A. Fan, and L. Fan, “C2 Selectivity Enhancement in Chemical Looping Oxidative Coupling of Methane over Mg-Mn Composite Oxygen Carrier by Li-Doping Induced Oxygen Vacancy,” ACS Energy Letters, 2018.
[Bibtex]@article{cheng2018c2, title={{C2 Selectivity Enhancement in Chemical Looping Oxidative Coupling of Methane over Mg-Mn Composite Oxygen Carrier by Li-Doping Induced Oxygen Vacancy}}, author={Cheng, Zhuo and Baser, Deven S and Nadgouda, Sourabh G and Qin, Lang and Fan, Jonathan A and Fan, Liang-Shih}, journal={{ACS Energy Letters}}, year={2018}, publisher={ACS Publications} }
- T. Chang, J. A. Fan, and T. H. Lee, “Evaluating the Microwave Performance of Epidermal Electronics with Equivalent Transmission Line Modeling,” in 2018 IEEE International Microwave Biomedical Conference (IMBioC), 2018, p. 40–42.
[Bibtex]@conference{chang2018evaluating, title={{Evaluating the Microwave Performance of Epidermal Electronics with Equivalent Transmission Line Modeling}}, author={Chang, Tammy and Fan, Jonathan A and Lee, Thomas H}, booktitle={{2018 IEEE International Microwave Biomedical Conference (IMBioC)}}, pages={40--42}, year={2018}, organization={IEEE} }
- Z. Cheng, L. Qin, J. A. Fan, and L. Fan, “New Insight into the Development of Oxygen Carrier Materials for Chemical Looping Systems,” Engineering, 2018.
[Bibtex]@article{cheng2018new, title={{New Insight into the Development of Oxygen Carrier Materials for Chemical Looping Systems}}, author={Cheng, Zhuo and Qin, Lang and Fan, Jonathan A and Fan, Liang-Shih}, journal={Engineering}, year={2018}, publisher={Elsevier} }
- L. H. Blumenschein, L. T. Gan, J. A. Fan, A. M. Okamura, and E. W. Hawkes, “A Tip-Extending Soft Robot Enables Reconfigurable and Deployable Antennas,” IEEE Robotics and Automation Letters, vol. 3, iss. 2, p. 949–956, 2018.
[Bibtex]@article{blumenschein2018tip, title={{A Tip-Extending Soft Robot Enables Reconfigurable and Deployable Antennas}}, author={Blumenschein, Laura H and Gan, Lucia T and Fan, Jonathan A and Okamura, Allison M and Hawkes, Elliot W}, journal={{IEEE Robotics and Automation Letters}}, volume={3}, number={2}, pages={949--956}, year={2018}, publisher={IEEE} }
- D. Sell, J. Yang, E. W. Wang, T. Phan, S. Doshay, and J. A. Fan, “Ultra-High-Efficiency Anomalous Refraction with Dielectric Metasurfaces,” ACS Photonics, vol. 5, iss. 6, p. 2402–2407, 2018.
[Bibtex]@article{sell2018ultra, title={{Ultra-High-Efficiency Anomalous Refraction with Dielectric Metasurfaces}}, author={Sell, David and Yang, Jianji and Wang, Evan W and Phan, Thaibao and Doshay, Sage and Fan, Jonathan A}, journal={{ACS Photonics}}, volume={5}, number={6}, pages={2402--2407}, year={2018}, publisher={ACS Publications} }
- K. Zhang, X. B. Pitner, R. Yang, W. D. Nix, J. D. Plummer, and J. A. Fan, “Single-crystal metal growth on amorphous insulating substrates,” Proceedings of the National Academy of Sciences, p. 201717882, 2018.
[Bibtex]@article{zhang2018single, title={Single-crystal metal growth on amorphous insulating substrates}, author={Zhang, Kai and Pitner, Xue Bai and Yang, Rui and Nix, William D and Plummer, James D and Fan, Jonathan A}, journal={{Proceedings of the National Academy of Sciences}}, pages={201717882}, year={2018}, publisher={National Acad Sciences} }
- S. Doshay, D. Sell, J. Yang, R. Yang, and J. A. Fan, “High-performance axicon lenses based on high-contrast, multilayer gratings,” APL Photonics, vol. 3, iss. 1, p. 11302, 2018.
[Bibtex]@article{doshay2018high, title={High-performance axicon lenses based on high-contrast, multilayer gratings}, author={Doshay, Sage and Sell, David and Yang, Jianji and Yang, Rui and Fan, Jonathan A}, journal={{APL Photonics}}, volume={3}, number={1}, pages={011302}, year={2018}, publisher={AIP Publishing} }
- J. Yang, D. Sell, and J. A. Fan, “Freeform metagratings based on complex light scattering dynamics for extreme, high efficiency beam steering,” Annalen der Physik, vol. 530, iss. 1, p. 1700302, 2018.
[Bibtex]@article{yang2018freeform, title={Freeform metagratings based on complex light scattering dynamics for extreme, high efficiency beam steering}, author={Yang, Jianji and Sell, David and Fan, Jonathan A}, journal={{Annalen der Physik}}, volume={530}, number={1}, pages={1700302}, year={2018}, publisher={Wiley Online Library} }
2017
- R. Yang, H. Li, K. K. Smithe, T. R. Kim, K. Okabe, E. Pop, J. A. Fan, and P. H-S. Wong, “2D molybdenum disulfide (MoS2) transistors driving RRAMs with 1T1R configuration,” in 2017 IEEE International Electron Devices Meeting (IEDM), 2017, p. 19–5.
[Bibtex]@conference{yang20172d, title={{2D molybdenum disulfide (MoS2) transistors driving RRAMs with 1T1R configuration}}, author={Yang, Rui and Li, Haitong and Smithe, Kirby KH and Kim, Taeho R and Okabe, Kye and Pop, Eric and Fan, Jonathan A and Wong, H-S Philip}, booktitle={{2017 IEEE International Electron Devices Meeting (IEDM)}}, pages={19--5}, year={2017}, organization={IEEE} }
- T. Chang, Y. Tanabe, C. C. Wojcik, A. C. Barksdale, S. Doshay, Z. Dong, H. Liu, M. Zhang, Y. Chen, Y. Su, and others, “A General Strategy for Stretchable Microwave Antenna Systems using Serpentine Mesh Layouts,” Advanced Functional Materials, vol. 27, iss. 46, p. 1703059, 2017.
[Bibtex]@article{chang2017general, title={{A General Strategy for Stretchable Microwave Antenna Systems using Serpentine Mesh Layouts}}, author={Chang, Tammy and Tanabe, Yuji and Wojcik, Charles C and Barksdale, Alex C and Doshay, Sage and Dong, Zhenya and Liu, Hao and Zhang, Maoyi and Chen, Yuli and Su, Yewang and others}, journal={{Advanced Functional Materials}}, volume={27}, number={46}, pages={1703059}, year={2017}, publisher={Wiley Online Library} }
- D. Sell, J. Yang, S. Doshay, and J. A. Fan, “Periodic Dielectric Metasurfaces with High-Efficiency, Multiwavelength Functionalities,” Advanced Optical Materials, vol. 5, iss. 23, p. 1700645, 2017.
[Bibtex]@article{sell2017periodic, title={{Periodic Dielectric Metasurfaces with High-Efficiency, Multiwavelength Functionalities}}, author={Sell, David and Yang, Jianji and Doshay, Sage and Fan, Jonathan A}, journal={{Advanced Optical Materials}}, volume={5}, number={23}, pages={1700645}, year={2017}, publisher={Wiley Online Library} }
- M. Zhang, H. Liu, P. Cao, B. Chen, J. Hu, Y. Chen, B. Pan, J. A. Fan, R. Li, L. Zhang, and others, “Strain-Limiting Substrates Based on Nonbuckling, Prestrain-Free Mechanics for Robust Stretchable Electronics,” Journal of Applied Mechanics, vol. 84, iss. 12, p. 121010, 2017.
[Bibtex]@article{zhang2017strain, title={{Strain-Limiting Substrates Based on Nonbuckling, Prestrain-Free Mechanics for Robust Stretchable Electronics}}, author={Zhang, Maoyi and Liu, Hao and Cao, Peng and Chen, Bin and Hu, Jianqiao and Chen, Yuli and Pan, Bing and Fan, Jonathan A and Li, Rui and Zhang, Lijuan and others}, journal={{Journal of Applied Mechanics}}, volume={84}, number={12}, pages={121010}, year={2017}, publisher={American Society of Mechanical Engineers} }
- J. Yang and J. A. Fan, “Analysis of material selection on dielectric metasurface performance,” Optics Express, vol. 25, iss. 20, p. 23899–23909, 2017.
[Bibtex]@article{yang2017analysis, title={Analysis of material selection on dielectric metasurface performance}, author={Yang, Jianji and Fan, Jonathan A}, journal={{Optics Express}}, volume={25}, number={20}, pages={23899--23909}, year={2017}, publisher={Optical Society of America} }
- J. Yang and J. A. Fan, “Topology-optimized metasurfaces: impact of initial geometric layout,” Optics Letters, vol. 42, iss. 16, p. 3161–3164, 2017.
[Bibtex]@article{yang2017topology, title={Topology-optimized metasurfaces: impact of initial geometric layout}, author={Yang, Jianji and Fan, Jonathan A}, journal={{Optics Letters}}, volume={42}, number={16}, pages={3161--3164}, year={2017}, publisher={Optical Society of America} }
- T. Chang, C. Wojcik, Y. Su, J. A. Rogers, T. H. Lee, and J. A. Fan, “Characterization of stretchable serpentine microwave devices for wearable electronics,” in 2017 IEEE MTT-S International Microwave Symposium (IMS), 2017, p. 211–210.
[Bibtex]@conference{chang2017characterization, title={Characterization of stretchable serpentine microwave devices for wearable electronics}, author={Chang, Tammy and Wojcik, Casey and Su, Yewang and Rogers, John A and Lee, Thomas H and Fan, Jonathan A}, booktitle={{2017 IEEE MTT-S International Microwave Symposium (IMS)}}, pages={211--210}, year={2017}, organization={IEEE} }
- D. Sell, J. Yang, S. Doshay, R. Yang, and J. A. Fan, “Large-angle, multifunctional metagratings based on freeform multimode geometries,” Nano Letters, vol. 17, iss. 6, p. 3752–3757, 2017.
[Bibtex]@article{sell2017large, title={Large-angle, multifunctional metagratings based on freeform multimode geometries}, author={Sell, David and Yang, Jianji and Doshay, Sage and Yang, Rui and Fan, Jonathan A}, journal={{Nano Letters}}, volume={17}, number={6}, pages={3752--3757}, year={2017}, publisher={ACS Publications} }
- Y. Su, X. Ping, K. J. Yu, J. W. Lee, J. A. Fan, B. Wang, M. Li, R. Li, D. V. Harburg, Y. Huang, and others, “In-Plane Deformation Mechanics for Highly Stretchable Electronics,” Advanced Materials, vol. 29, iss. 8, p. 1604989, 2017.
[Bibtex]@article{su2017plane, title={{In-Plane Deformation Mechanics for Highly Stretchable Electronics}}, author={Su, Yewang and Ping, Xuecheng and Yu, Ki Jun and Lee, Jung Woo and Fan, Jonathan A and Wang, Bo and Li, Ming and Li, Rui and Harburg, Daniel V and Huang, YongAn and others}, journal={{Advanced Materials}}, volume={29}, number={8}, pages={1604989}, year={2017}, publisher={Wiley Online Library} }
- L. Qin, Z. Cheng, M. Guo, J. A. Fan, and L. Fan, “Morphology evolution and nanostructure of chemical looping transition metal oxide materials upon redox processes,” Acta Materialia, vol. 124, p. 568–578, 2017.
[Bibtex]@article{qin2017morphology, title={Morphology evolution and nanostructure of chemical looping transition metal oxide materials upon redox processes}, author={Qin, Lang and Cheng, Zhuo and Guo, Mengqing and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Acta Materialia}}, volume={124}, pages={568--578}, year={2017}, publisher={Elsevier} }
- L. Qin, M. Guo, Z. Cheng, M. Xu, Y. Liu, D. Xu, J. A. Fan, and L. Fan, “Improved cyclic redox reactivity of lanthanum modified iron-based oxygen carriers in carbon monoxide chemical looping combustion,” Journal of Materials Chemistry A, vol. 5, iss. 38, p. 20153–20160, 2017.
[Bibtex]@article{qin2017improved, title={Improved cyclic redox reactivity of lanthanum modified iron-based oxygen carriers in carbon monoxide chemical looping combustion}, author={Qin, Lang and Guo, Mengqing and Cheng, Zhuo and Xu, Mingyuan and Liu, Yan and Xu, Dikai and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Journal of Materials Chemistry A}}, volume={5}, number={38}, pages={20153--20160}, year={2017}, publisher={Royal Society of Chemistry} }
2016
- L. Qin, Z. Cheng, M. Guo, M. Xu, J. A. Fan, and L. Fan, “Impact of 1% lanthanum dopant on carbonaceous fuel redox reactions with an iron-based oxygen carrier in chemical looping processes,” ACS Energy Letters, vol. 2, iss. 1, p. 70–74, 2016.
[Bibtex]@article{qin2016impact, title={Impact of 1% lanthanum dopant on carbonaceous fuel redox reactions with an iron-based oxygen carrier in chemical looping processes}, author={Qin, Lang and Cheng, Zhuo and Guo, Mengqing and Xu, Mingyuan and Fan, Jonathan A and Fan, Liang-Shih}, journal={{ACS Energy Letters}}, volume={2}, number={1}, pages={70--74}, year={2016}, publisher={ACS Publications} }
- X. Huang, Y. Liu, G. W. Kong, J. H. Seo, Y. Ma, K. Jang, J. A. Fan, S. Mao, Q. Chen, D. Li, and others, “Epidermal radio frequency electronics for wireless power transfer,” Microsystems & Nanoengineering, vol. 2, p. 16052, 2016.
[Bibtex]@article{huang2016epidermal, title={Epidermal radio frequency electronics for wireless power transfer}, author={Huang, Xian and Liu, Yuhao and Kong, Gil Woo and Seo, Jung Hun and Ma, Yinji and Jang, Kyung-In and Fan, Jonathan A and Mao, Shimin and Chen, Qiwen and Li, Daizhen and others}, journal={{Microsystems \& Nanoengineering}}, volume={2}, pages={16052}, year={2016}, publisher={Nature Publishing Group} }
- D. Sell, J. Yang, S. Doshay, K. Zhang, and J. A. Fan, “Visible light metasurfaces based on single-crystal silicon,” ACS Photonics, vol. 3, iss. 10, p. 1919–1925, 2016.
[Bibtex]@article{sell2016visible, title={Visible light metasurfaces based on single-crystal silicon}, author={Sell, David and Yang, Jianji and Doshay, Sage and Zhang, Kai and Fan, Jonathan A}, journal={{ACS Photonics}}, volume={3}, number={10}, pages={1919--1925}, year={2016}, publisher={ACS Publications} }
- S. Dong, K. Zhang, Z. Yu, and J. A. Fan, “Electrochemically programmable plasmonic antennas,” ACS Nano, vol. 10, iss. 7, p. 6716–6724, 2016.
[Bibtex]@article{dong2016electrochemically, title={Electrochemically programmable plasmonic antennas}, author={Dong, Shi and Zhang, Kai and Yu, Zhiping and Fan, Jonathan A}, journal={{ACS Nano}}, volume={10}, number={7}, pages={6716--6724}, year={2016}, publisher={ACS Publications} }
- Z. Cheng, L. Qin, M. Guo, M. Xu, J. A. Fan, and L. Fan, “Oxygen vacancy promoted methane partial oxidation over iron oxide oxygen carriers in the chemical looping process,” Physical Chemistry Chemical Physics, vol. 18, iss. 47, p. 32418–32428, 2016.
[Bibtex]@article{cheng2016oxygen, title={Oxygen vacancy promoted methane partial oxidation over iron oxide oxygen carriers in the chemical looping process}, author={Cheng, Zhuo and Qin, Lang and Guo, Mengqing and Xu, Mingyuan and Fan, Jonathan A and Fan, Liang-Shih}, journal={{Physical Chemistry Chemical Physics}}, volume={18}, number={47}, pages={32418--32428}, year={2016}, publisher={Royal Society of Chemistry} }
- Z. Cheng, L. Qin, M. Guo, J. A. Fan, D. Xu, and L. Fan, “Methane adsorption and dissociation on iron oxide oxygen carriers: the role of oxygen vacancies,” Physical Chemistry Chemical Physics, vol. 18, iss. 24, p. 16423–16435, 2016.
[Bibtex]@article{cheng2016methane, title={Methane adsorption and dissociation on iron oxide oxygen carriers: the role of oxygen vacancies}, author={Cheng, Zhuo and Qin, Lang and Guo, Mengqing and Fan, Jonathan A and Xu, Dikai and Fan, Liang-Shih}, journal={{Physical Chemistry Chemical Physics}}, volume={18}, number={24}, pages={16423--16435}, year={2016}, publisher={Royal Society of Chemistry} }
2015
- L. Gao, Y. Zhang, H. Zhang, S. Doshay, X. Xie, H. Luo, D. Shah, Y. Shi, S. Xu, H. Fang, and others, “Optics and nonlinear buckling mechanics in large-area, highly stretchable arrays of plasmonic nanostructures,” ACS Nano, vol. 9, iss. 6, p. 5968–5975, 2015.
[Bibtex]@article{gao2015optics, title={Optics and nonlinear buckling mechanics in large-area, highly stretchable arrays of plasmonic nanostructures}, author={Gao, Li and Zhang, Yihui and Zhang, Hui and Doshay, Sage and Xie, Xu and Luo, Hongying and Shah, Deesha and Shi, Yan and Xu, Siyi and Fang, Hui and others}, journal={{ACS Nano}}, volume={9}, number={6}, pages={5968--5975}, year={2015}, publisher={ACS Publications} }
- L. Xu, S. R. Gutbrod, Y. Ma, A. Petrossians, Y. Liu, C. R. Webb, J. A. Fan, Z. Yang, R. Xu, J. J. Whalen III, and others, “Materials and fractal designs for 3D multifunctional integumentary membranes with capabilities in cardiac electrotherapy,” Advanced Materials, vol. 27, iss. 10, p. 1731–1737, 2015.
[Bibtex]@article{xu2015materials, title={{Materials and fractal designs for 3D multifunctional integumentary membranes with capabilities in cardiac electrotherapy}}, author={Xu, Lizhi and Gutbrod, Sarah R and Ma, Yinji and Petrossians, Artin and Liu, Yuhao and Webb, R Chad and Fan, Jonathan A and Yang, Zijian and Xu, Renxiao and Whalen III, John J and others}, journal={{Advanced Materials}}, volume={27}, number={10}, pages={1731--1737}, year={2015}, publisher={Wiley Online Library} }
- L. Qin, Z. Cheng, J. A. Fan, D. Kopechek, D. Xu, N. Deshpande, and L. Fan, “Nanostructure formation mechanism and ion diffusion in iron–titanium composite materials with chemical looping redox reactions,” Journal of Materials Chemistry A, vol. 3, iss. 21, p. 11302–11312, 2015.
[Bibtex]@article{qin2015nanostructure, title={Nanostructure formation mechanism and ion diffusion in iron--titanium composite materials with chemical looping redox reactions}, author={Qin, Lang and Cheng, Zhuo and Fan, Jonathan A and Kopechek, David and Xu, Dikai and Deshpande, Niranjani and Fan, Liang-Shih}, journal={{Journal of Materials Chemistry A}}, volume={3}, number={21}, pages={11302--11312}, year={2015}, publisher={Royal Society of Chemistry} }
- Y. Su, S. Wang, Y. Huang, H. Luan, W. Dong, J. A. Fan, Q. Yang, J. A. Rogers, and Y. Huang, “Elasticity of fractal inspired interconnects,” Small, vol. 11, iss. 3, p. 367–373, 2015.
[Bibtex]@article{su2015elasticity, title={Elasticity of fractal inspired interconnects}, author={Su, Yewang and Wang, Shuodao and Huang, YongAn and Luan, Haiwen and Dong, Wentao and Fan, Jonathan A and Yang, Qinglin and Rogers, John A and Huang, Yonggang}, journal={Small}, volume={11}, number={3}, pages={367--373}, year={2015}, publisher={Wiley Online Library} }
2014
- Y. Zhang, H. Fu, S. Xu, J. A. Fan, K. Hwang, J. Jiang, J. A. Rogers, and Y. Huang, “A hierarchical computational model for stretchable interconnects with fractal-inspired designs,” Journal of the Mechanics and Physics of Solids, vol. 72, p. 115–130, 2014.
[Bibtex]@article{zhang2014hierarchical, title={A hierarchical computational model for stretchable interconnects with fractal-inspired designs}, author={Zhang, Yihui and Fu, Haoran and Xu, Sheng and Fan, Jonathan A and Hwang, Keh-Chih and Jiang, Jianqun and Rogers, John A and Huang, Yonggang}, journal={{Journal of the Mechanics and Physics of Solids}}, volume={72}, pages={115--130}, year={2014}, publisher={Elsevier} }
- Y. Hattori, L. Falgout, W. Lee, S. Jung, E. Poon, J. W. Lee, I. Na, A. Geisler, D. Sadhwani, Y. Zhang, and others, “Multifunctional skin-like electronics for quantitative, clinical monitoring of cutaneous wound healing,” Advanced Healthcare Materials, vol. 3, iss. 10, p. 1597–1607, 2014.
[Bibtex]@article{hattori2014multifunctional, title={Multifunctional skin-like electronics for quantitative, clinical monitoring of cutaneous wound healing}, author={Hattori, Yoshiaki and Falgout, Leo and Lee, Woosik and Jung, Sung-Young and Poon, Emily and Lee, Jung Woo and Na, Ilyoun and Geisler, Amelia and Sadhwani, Divya and Zhang, Yihui and others}, journal={{Advanced Healthcare Materials}}, volume={3}, number={10}, pages={1597--1607}, year={2014}, publisher={Wiley Online Library} }
- X. Huang, Y. Liu, H. Cheng, W. Shin, J. A. Fan, Z. Liu, C. Lu, G. Kong, K. Chen, D. Patnaik, and others, “Materials and designs for wireless epidermal sensors of hydration and strain,” Advanced Functional Materials, vol. 24, iss. 25, p. 3846–3854, 2014.
[Bibtex]@article{huang2014materials, title={Materials and designs for wireless epidermal sensors of hydration and strain}, author={Huang, Xian and Liu, Yuhao and Cheng, Huanyu and Shin, Woo-Jung and Fan, Jonathan A and Liu, Zhuangjian and Lu, Ching-Jui and Kong, Gil-Woo and Chen, Kaile and Patnaik, Dwipayan and others}, journal={{Advanced Functional Materials}}, volume={24}, number={25}, pages={3846--3854}, year={2014}, publisher={Wiley Online Library} }
- C. Wu, N. Arju, G. Kelp, J. A. Fan, J. Dominguez, E. Gonzales, E. Tutuc, I. Brener, and G. Shvets, “Spectrally selective chiral silicon metasurfaces based on infrared fano resonances,” Nature Communications, vol. 5, p. 3892, 2014.
[Bibtex]@article{wu2014spectrally, title={Spectrally selective chiral silicon metasurfaces based on infrared Fano resonances}, author={Wu, Chihhui and Arju, Nihal and Kelp, Glen and Fan, Jonathan A and Dominguez, Jason and Gonzales, Edward and Tutuc, Emanuel and Brener, Igal and Shvets, Gennady}, journal={{Nature Communications}}, volume={5}, pages={3892}, year={2014}, publisher={Nature Publishing Group} }
- Y. Zhang, S. Wang, X. Li, J. A. Fan, S. Xu, Y. M. Song, K. Choi, W. Yeo, W. Lee, S. N. Nazaar, and others, “Experimental and theoretical studies of serpentine microstructures bonded to prestrained elastomers for stretchable electronics,” Advanced Functional Materials, vol. 24, iss. 14, p. 2028–2037, 2014.
[Bibtex]@article{zhang2014experimental, title={Experimental and theoretical studies of serpentine microstructures bonded to prestrained elastomers for stretchable electronics}, author={Zhang, Yihui and Wang, Shuodao and Li, Xuetong and Fan, Jonathan A and Xu, Sheng and Song, Young Min and Choi, Ki-Joong and Yeo, Woon-Hong and Lee, Woosik and Nazaar, Sharaf Nafees and others}, journal={{Advanced Functional Materials}}, volume={24}, number={14}, pages={2028--2037}, year={2014}, publisher={Wiley Online Library} }
- J. A. Fan, W. Yeo, Y. Su, Y. Hattori, W. Lee, S. Jung, Y. Zhang, Z. Liu, H. Cheng, L. Falgout, and others, “Fractal design concepts for stretchable electronics,” Nature Communications, vol. 5, p. 3266, 2014.
[Bibtex]@article{fan2014fractal, title={Fractal design concepts for stretchable electronics}, author={Fan, Jonathan A and Yeo, Woon-Hong and Su, Yewang and Hattori, Yoshiaki and Lee, Woosik and Jung, Sung-Young and Zhang, Yihui and Liu, Zhuangjian and Cheng, Huanyu and Falgout, Leo and others}, journal={{Nature Communications}}, volume={5}, pages={3266}, year={2014}, publisher={Nature Publishing Group} }
- L. Qin, A. Majumder, J. A. Fan, D. Kopechek, and L. Fan, “Evolution of nanoscale morphology in single and binary metal oxide microparticles during reduction and oxidation processes,” Journal of Materials Chemistry A, vol. 2, iss. 41, p. 17511–17520, 2014.
[Bibtex]@article{qin2014evolution, title={Evolution of nanoscale morphology in single and binary metal oxide microparticles during reduction and oxidation processes}, author={Qin, Lang and Majumder, Ankita and Fan, Jonathan A and Kopechek, David and Fan, Liang-Shih}, journal={{Journal of Materials Chemistry A}}, volume={2}, number={41}, pages={17511--17520}, year={2014}, publisher={Royal Society of Chemistry} }
2013
- Y. Zhang, H. Fu, Y. Su, S. Xu, H. Cheng, J. A. Fan, K. Hwang, J. A. Rogers, and Y. Huang, “Mechanics of ultra-stretchable self-similar serpentine interconnects,” Acta Materialia, vol. 61, iss. 20, p. 7816–7827, 2013.
[Bibtex]@article{zhang2013mechanics, title={Mechanics of ultra-stretchable self-similar serpentine interconnects}, author={Zhang, Yihui and Fu, Haoran and Su, Yewang and Xu, Sheng and Cheng, Huanyu and Fan, Jonathan A and Hwang, Keh-Chih and Rogers, John A and Huang, Yonggang}, journal={{Acta Materialia}}, volume={61}, number={20}, pages={7816--7827}, year={2013}, publisher={Elsevier} }
- Y. Lee, N. B. Schade, L. Sun, J. A. Fan, D. R. Bae, M. M. Mariscal, G. Lee, F. Capasso, S. Sacanna, V. N. Manoharan, and others, “Ultrasmooth, highly spherical monocrystalline gold particles for precision plasmonics,” ACS Nano, vol. 7, iss. 12, p. 11064–11070, 2013.
[Bibtex]@article{lee2013ultrasmooth, title={Ultrasmooth, highly spherical monocrystalline gold particles for precision plasmonics}, author={Lee, You-Jin and Schade, Nicholas B and Sun, Li and Fan, Jonathan A and Bae, Doo Ri and Mariscal, Marcelo M and Lee, Gaehang and Capasso, Federico and Sacanna, Stefano and Manoharan, Vinothan N and others}, journal={{ACS Nano}}, volume={7}, number={12}, pages={11064--11070}, year={2013}, publisher={ACS Publications} }
- N. B. Schade, M. C. Holmes-Cerfon, E. R. Chen, D. Aronzon, J. W. Collins, J. A. Fan, F. Capasso, and V. N. Manoharan, “Tetrahedral colloidal clusters from random parking of bidisperse spheres,” Physical Review Letters, vol. 110, iss. 14, p. 148303, 2013.
[Bibtex]@article{schade2013tetrahedral, title={Tetrahedral colloidal clusters from random parking of bidisperse spheres}, author={Schade, Nicholas B and Holmes-Cerfon, Miranda C and Chen, Elizabeth R and Aronzon, Dina and Collins, Jesse W and Fan, Jonathan A and Capasso, Federico and Manoharan, Vinothan N}, journal={{Physical Review Letters}}, volume={110}, number={14}, pages={148303}, year={2013}, publisher={APS} }
- S. Xu, Y. Zhang, J. Cho, J. Lee, X. Huang, L. Jia, J. A. Fan, Y. Su, J. Su, H. Zhang, and others, “Stretchable batteries with self-similar serpentine interconnects and integrated wireless recharging systems,” Nature Communications, vol. 4, p. 1543, 2013.
[Bibtex]@article{xu2013stretchable, title={Stretchable batteries with self-similar serpentine interconnects and integrated wireless recharging systems}, author={Xu, Sheng and Zhang, Yihui and Cho, Jiung and Lee, Juhwan and Huang, Xian and Jia, Lin and Fan, Jonathan A and Su, Yewang and Su, Jessica and Zhang, Huigang and others}, journal={{Nature Communications}}, volume={4}, pages={1543}, year={2013}, publisher={Nature Publishing Group} }
2012
- J. A. Fan, K. Bao, L. Sun, J. Bao, V. N. Manoharan, P. Nordlander, and F. Capasso, “Plasmonic mode engineering with templated self-assembled nanoclusters,” Nano Letters, vol. 12, iss. 10, p. 5318–5324, 2012.
[Bibtex]@article{fan2012plasmonic, title={Plasmonic mode engineering with templated self-assembled nanoclusters}, author={Fan, Jonathan A and Bao, Kui and Sun, Li and Bao, Jiming and Manoharan, Vinothan N and Nordlander, Peter and Capasso, Federico}, journal={{Nano Letters}}, volume={12}, number={10}, pages={5318--5324}, year={2012}, publisher={ACS Publications} }
- J. A. Fan, K. Bao, B. J. Lassiter, J. Bao, N. J. Halas, P. Nordlander, and F. Capasso, “Near-normal incidence dark-field microscopy: applications to nanoplasmonic spectroscopy,” Nano Letters, vol. 12, iss. 6, p. 2817–2821, 2012.
[Bibtex]@article{fan2012near, title={Near-normal incidence dark-field microscopy: applications to nanoplasmonic spectroscopy}, author={Fan, Jonathan A and Bao, Kui and Lassiter, J Britt and Bao, Jiming and Halas, Naomi J and Nordlander, Peter and Capasso, Federico}, journal={{Nano Letters}}, volume={12}, number={6}, pages={2817--2821}, year={2012}, publisher={ACS Publications} }
2011
- J. A. Fan, Y. He, K. Bao, C. Wu, J. Bao, N. B. Schade, V. N. Manoharan, G. Shvets, P. Nordlander, D. R. Liu, and others, “DNA-enabled self-assembly of plasmonic nanoclusters,” Nano Letters, vol. 11, iss. 11, p. 4859–4864, 2011.
[Bibtex]@article{fan2011dna, title={{DNA-enabled self-assembly of plasmonic nanoclusters}}, author={Fan, Jonathan A and He, Yu and Bao, Kui and Wu, Chihhui and Bao, Jiming and Schade, Nicholas B and Manoharan, Vinothan N and Shvets, Gennady and Nordlander, Peter and Liu, David R and others}, journal={{Nano Letters}}, volume={11}, number={11}, pages={4859--4864}, year={2011}, publisher={ACS Publications} }
- J. Tetienne, R. Blanchard, N. Yu, P. Genevet, M. Kats, J. Fan, T. Edamura, S. Furuta, M. Yamanishi, and F. Capasso, “Dipolar modeling and experimental demonstration of multi-beam plasmonic collimators,” New Journal of Physics, vol. 13, iss. 5, p. 53057, 2011.
[Bibtex]@article{tetienne2011dipolar, title={Dipolar modeling and experimental demonstration of multi-beam plasmonic collimators}, author={Tetienne, JP and Blanchard, R and Yu, N and Genevet, P and Kats, MA and Fan, JA and Edamura, T and Furuta, S and Yamanishi, M and Capasso, F}, journal={{New Journal of Physics}}, volume={13}, number={5}, pages={053057}, year={2011}, publisher={IOP Publishing} }
2010
- N. Yu, Q. Wang, M. Kats, J. Fan, F. Capasso, S. Khanna, L. Li, A. Davies, and E. Linfield, “Terahertz plasmonics,” Electronics Letters, vol. 46, iss. 26, p. 52–57, 2010.
[Bibtex]@article{yu2010terahertz, title={Terahertz plasmonics}, author={Yu, N and Wang, QJ and Kats, MA and Fan, JA and Capasso, F and Khanna, SP and Li, L and Davies, AG and Linfield, EH}, journal={{Electronics Letters}}, volume={46}, number={26}, pages={52--57}, year={2010}, publisher={IET} }
- J. A. Fan, K. Bao, C. Wu, J. Bao, R. Bardhan, N. J. Halas, V. N. Manoharan, G. Shvets, P. Nordlander, and F. Capasso, “Fano-like interference in self-assembled plasmonic quadrumer clusters,” Nano Letters, vol. 10, iss. 11, p. 4680–4685, 2010.
[Bibtex]@article{fan2010fano, title={Fano-like interference in self-assembled plasmonic quadrumer clusters}, author={Fan, Jonathan A and Bao, Kui and Wu, Chihhui and Bao, Jiming and Bardhan, Rizia and Halas, Naomi J and Manoharan, Vinothan N and Shvets, Gennady and Nordlander, Peter and Capasso, Federico}, journal={{Nano Letters}}, volume={10}, number={11}, pages={4680--4685}, year={2010}, publisher={ACS Publications} }
- R. W. Adams, K. Vijayraghavan, Q. J. Wang, J. Fan, F. Capasso, S. P. Khanna, G. A. Davies, E. H. Linfield, and M. A. Belkin, “GaAs/Al 0.15 Ga 0.85 As terahertz quantum cascade lasers with double-phonon resonant depopulation operating up to 172 K,” Applied Physics Letters, vol. 97, iss. 13, p. 131111, 2010.
[Bibtex]@article{adams2010gaas, title={{GaAs/Al 0.15 Ga 0.85 As terahertz quantum cascade lasers with double-phonon resonant depopulation operating up to 172 K}}, author={Adams, Robert W and Vijayraghavan, Karun and Wang, Qi Jie and Fan, Jonathan and Capasso, Federico and Khanna, Suraj P and Davies, A Giles and Linfield, Edmund H and Belkin, Mikhail A}, journal={{Applied Physics Letters}}, volume={97}, number={13}, pages={131111}, year={2010}, publisher={AIP} }
- N. Yu, Q. J. Wang, M. A. Kats, J. A. Fan, S. P. Khanna, L. Li, G. A. Davies, E. H. Linfield, and F. Capasso, “Designer spoof surface plasmon structures collimate terahertz laser beams,” Nature Materials, vol. 9, iss. 9, p. 730, 2010.
[Bibtex]@article{yu2010designer, title={Designer spoof surface plasmon structures collimate terahertz laser beams}, author={Yu, Nanfang and Wang, Qi Jie and Kats, Mikhail A and Fan, Jonathan A and Khanna, Suraj P and Li, Lianhe and Davies, A Giles and Linfield, Edmund H and Capasso, Federico}, journal={{Nature Materials}}, volume={9}, number={9}, pages={730}, year={2010}, publisher={Nature Publishing Group} }
- B. J. Lassiter, H. Sobhani, J. A. Fan, J. Kundu, F. Capasso, P. Nordlander, and N. J. Halas, “Fano resonances in plasmonic nanoclusters: geometrical and chemical tunability,” Nano Letters, vol. 10, iss. 8, p. 3184–3189, 2010.
[Bibtex]@article{lassiter2010fano, title={Fano resonances in plasmonic nanoclusters: geometrical and chemical tunability}, author={Lassiter, J Britt and Sobhani, Heidar and Fan, Jonathan A and Kundu, Janardan and Capasso, Federico and Nordlander, Peter and Halas, Naomi J}, journal={{Nano Letters}}, volume={10}, number={8}, pages={3184--3189}, year={2010}, publisher={ACS Publications} }
- J. A. Fan, C. Wu, K. Bao, J. Bao, R. Bardhan, N. J. Halas, V. N. Manoharan, P. Nordlander, G. Shvets, and F. Capasso, “Self-assembled plasmonic nanoparticle clusters,” Science, vol. 328, iss. 5982, p. 1135–1138, 2010.
[Bibtex]@article{fan2010self, title={Self-assembled plasmonic nanoparticle clusters}, author={Fan, Jonathan A and Wu, Chihhui and Bao, Kui and Bao, Jiming and Bardhan, Rizia and Halas, Naomi J and Manoharan, Vinothan N and Nordlander, Peter and Shvets, Gennady and Capasso, Federico}, journal={Science}, volume={328}, number={5982}, pages={1135--1138}, year={2010}, publisher={American Association for the Advancement of Science} }
- M. W. Knight, J. Fan, F. Capasso, and N. J. Halas, “Influence of excitation and collection geometry on the dark field spectra of individual plasmonic nanostructures,” Optics Express, vol. 18, iss. 3, p. 2579–2587, 2010.
[Bibtex]@article{knight2010influence, title={Influence of excitation and collection geometry on the dark field spectra of individual plasmonic nanostructures}, author={Knight, Mark W and Fan, Jonathan and Capasso, Federico and Halas, Naomi J}, journal={{Optics Express}}, volume={18}, number={3}, pages={2579--2587}, year={2010}, publisher={Optical Society of America} }
- A. Rakhmanov, V. Yampol’Skii, J. Fan, F. Capasso, and F. Nori, “Layered superconductors as negative-refractive-index metamaterials,” Physical Review B, vol. 81, iss. 7, p. 75101, 2010.
[Bibtex]@article{rakhmanov2010layered, title={Layered superconductors as negative-refractive-index metamaterials}, author={Rakhmanov, AL and Yampol'Skii, VA and Fan, JA and Capasso, Federico and Nori, Franco}, journal={{Physical Review B}}, volume={81}, number={7}, pages={075101}, year={2010}, publisher={APS} }
- N. Yu, R. Blanchard, J. Fan, Q. J. Wang, C. Pflügl, L. Diehl, T. Edamura, S. Furuta, M. Yamanishi, H. Kan, and others, “Plasmonics for laser beam shaping,” IEEE Transactions on Nanotechnology, vol. 9, iss. 1, p. 11–29, 2010.
[Bibtex]@article{yu2010plasmonics, title={Plasmonics for laser beam shaping}, author={Yu, Nanfang and Blanchard, Romain and Fan, Jonathan and Wang, Qi Jie and Pfl{\"u}gl, Christian and Diehl, Laurent and Edamura, Tadataka and Furuta, Shinichi and Yamanishi, Masamichi and Kan, Hirofumi and others}, journal={{IEEE Transactions on Nanotechnology}}, volume={9}, number={1}, pages={11--29}, year={2010}, publisher={IEEE} }
2008
- N. Yu, R. Blanchard, J. Fan, Q. J. Wang, C. Pflügl, L. Diehl, T. Edamura, M. Yamanishi, H. Kan, and F. Capasso, “Quantum cascade lasers with integrated plasmonic antenna-array collimators,” Optics Express, vol. 16, iss. 24, p. 19447–19461, 2008.
[Bibtex]@article{yu2008quantum, title={Quantum cascade lasers with integrated plasmonic antenna-array collimators}, author={Yu, Nanfang and Blanchard, Romain and Fan, Jonathan and Wang, Qi Jie and Pfl{\"u}gl, Christian and Diehl, Laurent and Edamura, Tadataka and Yamanishi, Masamichi and Kan, Hirofumi and Capasso, Federico}, journal={{Optics Express}}, volume={16}, number={24}, pages={19447--19461}, year={2008}, publisher={Optical Society of America} }
- N. Yu, R. Blanchard, J. Fan, F. Capasso, T. Edamura, M. Yamanishi, and H. Kan, “Small divergence edge-emitting semiconductor lasers with two-dimensional plasmonic collimators,” Applied Physics Letters, vol. 93, iss. 18, p. 181101, 2008.
[Bibtex]@article{yu2008small1, title={Small divergence edge-emitting semiconductor lasers with two-dimensional plasmonic collimators}, author={Yu, Nanfang and Blanchard, Romain and Fan, Jonathan and Capasso, Federico and Edamura, Tadataka and Yamanishi, Masamichi and Kan, Hirofumi}, journal={{Applied Physics Letters}}, volume={93}, number={18}, pages={181101}, year={2008}, publisher={AIP} }
- N. Yu, J. Fan, Q. J. Wang, C. Pflügl, L. Diehl, T. Edamura, M. Yamanishi, H. Kan, and F. Capasso, “Small-divergence semiconductor lasers by plasmonic collimation,” Nature Photonics, vol. 2, iss. 9, p. 564–570, 2008.
[Bibtex]@article{yu2008small, title={Small-divergence semiconductor lasers by plasmonic collimation}, author={Yu, Nanfang and Fan, Jonathan and Wang, Qi Jie and Pfl{\"u}gl, Christian and Diehl, Laurent and Edamura, Tadataka and Yamanishi, Masamichi and Kan, Hirofumi and Capasso, Federico}, journal={{Nature Photonics}}, volume={2}, number={9}, pages={564--570}, year={2008}, publisher={Nature Publishing Group} }
- M. A. Belkin, J. A. Fan, S. Hormoz, F. Capasso, S. P. Khanna, M. Lachab, G. A. Davies, and E. H. Linfield, “Terahertz quantum cascade lasers with copper metal-metal waveguides operating up to 178 K,” Optics Express, vol. 16, iss. 5, p. 3242–3248, 2008.
[Bibtex]@article{belkin2008terahertz, title={{Terahertz quantum cascade lasers with copper metal-metal waveguides operating up to 178 K}}, author={Belkin, Mikhail A and Fan, Jonathan A and Hormoz, Sahand and Capasso, Federico and Khanna, Suraj P and Lachab, Mohamed and Davies, A Giles and Linfield, Edmund H}, journal={{Optics Express}}, volume={16}, number={5}, pages={3242--3248}, year={2008}, publisher={Optical Society of America} }
- J. A. Fan, M. A. Belkin, F. Capasso, S. P. Khanna, M. Lachab, G. A. Davies, and E. H. Linfield, “Wide-ridge metal-metal terahertz quantum cascade lasers with high-order lateral mode suppression,” Applied Physics Letters, vol. 92, iss. 3, p. 31106, 2008.
[Bibtex]@article{fan2008wide, title={Wide-ridge metal-metal terahertz quantum cascade lasers with high-order lateral mode suppression}, author={Fan, Jonathan A and Belkin, Mikhail A and Capasso, Federico and Khanna, Suraj P and Lachab, Mohamed and Davies, A Giles and Linfield, Edmund H}, journal={{Applied Physics Letters}}, volume={92}, number={3}, pages={031106}, year={2008}, publisher={AIP} }
2007
- J. Fan, M. Belkin, M. Troccoli, S. Corzine, D. Bour, G. Höfler, and F. Capasso, “Double-metal waveguide lambda ~ 19 um quantum cascade lasers grown by metal organic vapour phase epitaxy,” Electronics Letters, vol. 43, iss. 23, p. 1284–1285, 2007.
[Bibtex]@article{fan2007double, title={Double-metal waveguide lambda ~ 19 um quantum cascade lasers grown by metal organic vapour phase epitaxy}, author={Fan, JA and Belkin, MA and Troccoli, M and Corzine, S and Bour, D and H{\"o}fler, G and Capasso, F}, journal={{Electronics Letters}}, volume={43}, number={23}, pages={1284--1285}, year={2007}, publisher={IET} }
- Y. A. Urzhumov, G. Shvets, J. Fan, F. Capasso, D. Brandl, and P. Nordlander, “Plasmonic nanoclusters: a path towards negative-index metafluids,” Optics Express, vol. 15, iss. 21, p. 14129–14145, 2007.
[Bibtex]@article{urzhumov2007plasmonic, title={Plasmonic nanoclusters: a path towards negative-index metafluids}, author={Urzhumov, Yaroslav A and Shvets, Gennady and Fan, Jonathan and Capasso, Federico and Brandl, Daniel and Nordlander, Peter}, journal={{Optics Express}}, volume={15}, number={21}, pages={14129--14145}, year={2007}, publisher={Optical Society of America} }
- R. Audet, M. A. Belkin, J. A. Fan, B. G. Lee, K. Lin, F. Capasso, E. E. Narimanov, D. Bour, S. Corzine, J. Zhu, and others, “Single-mode laser action in quantum cascade lasers with spiral-shaped chaotic resonators,” Applied Physics Letters, vol. 91, iss. 13, p. 131106, 2007.
[Bibtex]@article{audet2007single, title={Single-mode laser action in quantum cascade lasers with spiral-shaped chaotic resonators}, author={Audet, Ross and Belkin, Mikhail A and Fan, Jonathan A and Lee, Benjamin G and Lin, Kai and Capasso, Federico and Narimanov, Evgenii E and Bour, David and Corzine, Scott and Zhu, Jintian and others}, journal={{Applied Physics Letters}}, volume={91}, number={13}, pages={131106}, year={2007}, publisher={AIP} }
2006
- J. A. Fan, M. A. Belkin, F. Capasso, S. Khanna, M. Lachab, G. A. Davies, and E. H. Linfield, “Surface emitting terahertz quantum cascade laser with a double-metal waveguide,” Optics Express, vol. 14, iss. 24, p. 11672–11680, 2006.
[Bibtex]@article{fan2006surface, title={Surface emitting terahertz quantum cascade laser with a double-metal waveguide}, author={Fan, Jonathan A and Belkin, Mikhail A and Capasso, Federico and Khanna, Suraj and Lachab, Mohamed and Davies, A Giles and Linfield, Edmund H}, journal={{Optics Express}}, volume={14}, number={24}, pages={11672--11680}, year={2006}, publisher={Optical Society of America} }
- M. Chen, J. Jiang, and J. A. Fan, “Design space reparameterization enforces hard geometric constraints in inverse-designed nanophotonic devices,” ACS Photonics.
[Bibtex]@article{chen2020design, title={Design space reparameterization enforces hard geometric constraints in inverse-designed nanophotonic devices}, author={Chen, Mingkun and Jiang, Jiaqi and Fan, Jonathan A}, journal={{ACS Photonics}}, publisher={ACS Publications} }
Book Chapters
- J. A. Fan and F. Capasso, “Nanocluster Antennas,” in Optical Antennas, M. Agio and A. Alu, Eds., Cambridge University Press, 2013.
[Bibtex]@incollection{fan2013nanocluster, title = {{Nanocluster Antennas}}, author = {Fan, Jonathan A. and Capasso, Federico}, booktitle = {{Optical Antennas}}, editor = {Agio, Mario and Alu, Andrea}, publisher = {Cambridge University Press}, year = {2013} }
Patents
- E. W. Wang, T. Phan, and others, Metasurface polarization filtering for characterization of samplesGoogle Patents, 2024.
[Bibtex]@misc{wang2024metasurface, title={Metasurface polarization filtering for characterization of samples}, author={Wang, Evan W and Phan, Thaibao and others}, year={2024}, month=jan # "~18", publisher={Google Patents}, note={US Patent App. 18/034,871} }
- T. Phan, E. W. Wang, and others, Matrix-based characterization and measurements for semiconductor thin-film materialGoogle Patents, 2024.
[Bibtex]@misc{phan2024matrix, title={Matrix-based characterization and measurements for semiconductor thin-film material}, author={Phan, Thaibao and Wang, Evan W and others}, year={2024}, month=jan # "~4", publisher={Google Patents}, note={US Patent App. 18/034,875} }
- D. Sell, T. Phan, J. Yang, and others, High-efficiency, large-area, topology-optimized metasurfacesGoogle Patents, 2023.
[Bibtex]@misc{sell2023high, title={High-efficiency, large-area, topology-optimized metasurfaces}, author={Sell, David and Phan, Thaibao and Yang, Jianji and others}, year={2023}, month=dec # "~12", publisher={Google Patents}, note={US Patent 11,841,518} }
- J. Fan, J. Jiang, and M. Chen, Multi-objective, robust constraints enforced global topology optimizer for optical devicesGoogle Patents, 2023.
[Bibtex]@misc{fan2023multi, title={Multi-objective, robust constraints enforced global topology optimizer for optical devices}, author={Fan, Jonathan and Jiang, Jiaqi and Chen, Mingkun}, year={2023}, month=oct # "~24", publisher={Google Patents}, note={US Patent 11,796,794} }
- J. A. Fan and J. Jiang, Systems and methods for generative models for designGoogle Patents, 2021.
[Bibtex]@misc{fan2021systems, title={Systems and Methods for Generative Models for Design}, author={Fan, Jonathan Albert and Jiang, Jiaqi}, year={2021}, month=dec # "~16", publisher={Google Patents}, note={US Patent App. 17/259,130} }
- J. Fan, J. Jiang, and M. Chen, Multi-objective, robust constraints enforced global topology optimizer for optical devicesGoogle Patents, 2021.
[Bibtex]@misc{fan2021multi, title={Multi-Objective, Robust Constraints Enforced Global Topology Optimizer for Optical Devices}, author={Fan, Jonathan and Jiang, Jiaqi and Chen, Mingkun}, year={2021}, month=nov # "~18", publisher={Google Patents}, note={US Patent App. 17/317,624} }
- J. A. Rogers, J. Fan, W. Yeo, S. Yewang, Y. Huang, and Y. Zhang, “Self-similar and fractal design for stretchable electronics,” , 2017.
[Bibtex]@patent{rogers2017self, title={Self-similar and fractal design for stretchable electronics}, author={Rogers, John A and Fan, Jonathan and Yeo, Woon-Hong and Yewang, SU and Huang, Yonggang and Zhang, Yihui}, year={2017}, month=apr # "~4", publisher={Google Patents}, note={US Patent 9,613,911} }
- J. A. Rogers, S. Xu, Y. Huang, Y. Zhang, L. Jia, and others, “Stretchable electronic systems with containment chambers,” , 2015.
[Bibtex]@patent{rogers2015stretchable, title={Stretchable electronic systems with containment chambers}, author={Rogers, John A and Xu, Sheng and Huang, Yonggang and Zhang, Yihui and Jia, Lin and others}, year={2015}, month=dec # "~24", publisher={Google Patents}, note={US Patent App. 14/766,301} }
- J. A. Rogers, S. Xu, and J. Fan, “Stretchable electronic systems with fluid containment,” , 2014.
[Bibtex]@patent{rogers2014stretchable, title={Stretchable electronic systems with fluid containment}, author={Rogers, John A and Xu, Sheng and Fan, Jonathan}, year={2014}, month=aug # "~7", publisher={Google Patents}, note={US Patent App. 13/835,284} }
- F. Capasso, N. Yu, and J. Fan, “Methods and apparatus for improving collimation of radiation beams,” , 2012.
[Bibtex]@patent{capasso2012methods, title={Methods and apparatus for improving collimation of radiation beams}, author={Capasso, Federico and Yu, Nanfang and Fan, Jonathan}, year={2012}, month=dec # "~11", publisher={Google Patents}, note={US Patent 8,328,396} }