2024
5.J. Jian, R. Liu, Y. Ye, J. Wu, Q. Deng, M. Wei,Y. Tang, R. Tang, B. Sun, H. Ma, Y. Shi, C. Zhong, C. Sun,H. Lin, M. Li, and L. Li |
Plasmonic-Enhanced Polymer-Stabilized Liquid CrystalsSwitching for Integrated Optical Attenuation. Advanced Optical Materials 2024, 2400281 |
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4.M. Wei, K. Xu, B. Tang, J. Li, Y. Yun, P. Zhang, Y. Wu, K. Bao, K. Lei, Z. Chen, H. Ma, C. Sun, R. Liu, M. Li, L. Li, and H. Lin |
Monolithic back-end-of-line integration of phase change materials into foundry-manufactured silicon. photonics. Nature Communications 2024, 15, 2786 |
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3.M. Wei, X. Lin, K. Xu, Y. Wu, C. Wang, Z. Wang, K. Lei, K. Bao, J. Li, L. Li, E. Li, and H. Lin |
Inverse design of compact nonvolatile reconfigurable silicon photonic devices with phase-change materials. Nanophotonics 2024, doi.org/10.1515/nanoph-2023-0637 |
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2.Y. Ye, H. Ma, J. Wu, B. Sun, J. Jian, M. Wei, R. Tang, Y. Shi, H. Lin, and L. Li |
Flexible InGaAs Photodetector With High-Speed Detection and Long-Term Stability. IEEE Journal of Selected Topics in Quantum Electronics 2024, 30(3), 1-8 |
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1.Ting He1, Hui Ma, Zhen Wang , Qing Li , Shuning Liu1 , Shikun Duan , Tengfei Xu , Jiacheng Wang , Haitao Wu1 , Fang Zhong, Yuting Ye , Jianghong Wu , Shuo Lin , Kun Zhang , Piotr Martyniuk , Antoni Rogalski , Peng Wang , Lan Li , Hongtao Lin & Weida Hu
On-chip optoelectronic logic gates operating in the telecom band
nature photonics 2024, 60-67
2023
[80]Chuyu Zhong , Kun Liao , Tianxiang Dai , Maoliang Wei , Hui Ma , Jianghong Wu , Zhibin Zhang , Yuting Ye , Ye Luo , Zequn Chen , Jialing Jian , Chunlei Sun , Bo Tang , Peng Zhang , Ruonan Liu , Junying Li , Jianyi Yang , Lan Li , Kaihui Liu , Xiaoyong Hu & Hongtao Lin 'Graphene/silicon heterojunction for reconfigurable phase-relevant activation function in coherent optical neural networks,'Nature Communications 14:6939(2023)
[79]B. Sun, M. Wei, K. Lei, Z. Chen, C. Sun, J. Li, L. Li, and H. Lin, 'Integrated Bragg grating filters based on silicon-Sb2Se3 with non-volatile bandgap engineering capability,'Optics Express 31, 27905-27913 (2023)
[78]W. Wu, H. Ma, X. Cai, B. Han, Y. Li, K. Xu, H. Lin, F. Zhang, Z. Chen, Z. Zhang, L. Peng, and S. Wang, 'High-Speed Carbon Nanotube Photodetectors for 2 μm Communications,'ACS Nano17,15155−15164 (2023)
[77]C. Zhong, K. Liao, T. Da, M. Wei, H. Ma, J. Wu, Z. Zhang, Y. Ye, Y. Luo, Z. Chen, J. Jian, C. Sun, B. Tang, P. Zhang, R. Liu, J. Li, J. Yang, L. Li, K. Liu, X. Hu, and H. Lin, 'Graphene/silicon heterojunction for reconfigurable phase-relevant activation function in coherent optical neural networks,' arXiv preprint arXiv:2307.06882 (2023)
[76]J. Wu, Y. Ye, J. Jian, X. Yao, J. Li, B. Tang, H. Ma, M. Wei, W. Li, H. Lin, and L. Li, 'Reversible Thermally Driven Phase Change of Layered In2Se3 for Integrated Photonics,' Nano Letters 23, 6440-6448 (2023)
[75]M. Wei, J. Li, Z. Chen, B. Tang, Z. Jia, P. Zhang, K. Lei, K. Xu, J. Wu, C. Zhong, H. Ma, Y. Ye, J. Jian, C. Sun, R. Liu, Y. Sun, W. E. I. Sha, X. Hu, J. Yang, L. Li, and H. Lin, 'Electrically programmable phase-change photonic memory for optical neural networks with nanoseconds in situ training capability,' Advanced Photonics 5, 046004 (2023)
[74]R. Tang, Y. Shi, H. Shang, J. Wu, H. Ma, M. Wei, Y. Luo, Z. Chen, Y. Ye, J. Jian, X. Zheng, H. Lin, and L. Li, 'Two-dimensional heterostructure quasi-BIC photonic crystal surface-emitting laser with low divergence,' Nanophotonics 12, 3257-3265 (2023)
[73]Z. Chen, M. Wei, B. Sun, Y. Weng, J. Jian, C. Zhong, C. Sun, K. Si, W. Gong, H. Lin, and L. Li, 'Flexible waveguide integrated thermo-optic switch based on TiO2 platform,' Optics Letters 48, 3239-3242 (2023)
[72]C. Sun, Z. Chen, Y. Ye, K. Lei, H. Ma, M. Wei, R. Tang, J. Wu, H. Lin, and L. Li, 'Scalable On-Chip Microdisk Resonator Spectrometer,' Laser & Photonics Reviews 17, 2200792 (2023)
[71]Z. Chen, Y. Shi, M. Wei, Y. Luo, H. Ma, R. Tang, Y. Weng, H. Dai, C. Zhong, C. Sun, L. Wang, K. Si, W. Gong, H. Lin, and L. Li, 'A Universal Approach to High-Index-Contrast Flexible Integrated Photonics,' Advanced Optical Materials 11, 2202824 (2023)
[70]X. Xie, M. Wei, Y. Yang, Y. Li, K. Lei, Z. Zhang,C. Wang, C. Zhong, L. Li, Z. Wang, W. Sha, E. Li, H. Xue,Z. Yang, L. Yuan, H. Chen, H. Lin, and Fei Gao, 'Harnessing Anti-Parity-Time Phase Transition in CoupledTopological Photonic Valley Waveguides,' Advanced Functional Materials, 2302197 (2023)
[69]C. Zhang, M. Wei, J. Zheng, S. Liu, H. Cao, Y. Huang, Y. Tan, M. Zhang, Y. Xie, Z. Yu, J. Li, H. Ye, L. Li, H. Lin, H. Li, Y. Shi, L. Liu, and D. Dai, 'Nonvolatile Multilevel Switching of Silicon Photonic Devices with In2O3/GST Segmented Structures,' Advanced Optical Materials , 2202748 (2023)
2022
[68]X. Lin, M. Wei, K. Lei, S. Yang, H. Ma, C. Zhong, Y. Luo, D. Li, J. Li, C. Lin, W. Zhang, S. Dai, X. Hu, L. Li, E. Li, and H. Lin, 'Compact Mid-Infrared Chalcogenide Glass Photonic Devices Based on Robust-Inverse Design,' Laser & Photonics Reviews, 2200445 (2022)
[67]Z. Cheng, B. Chen, C. Sun, M. Wei, S. Yu, L. Li, H. Lin, and Y. Rao, 'Ultra-High Dynamic Extinction Ratio Electro-Optical Modulator with Coupled Microring on SOI Platform,' 2022 Asia Communications and Photonics Conference (ACP), 1378-1379(2022)
[66]H. Ma, J. Wu, Y. Wang, C. Zhong, Y. Ye, M. Wei, R. Yu, Y. Du, B. Tang, C. Sun, Y. Shi, C. Sun, L. Wang, H. Zhu, X. Qiao, L. Li, and H. Lin , 'Enhanced Light–Tellurium Interaction through Evanescent Wave Coupling for High Speed Mid-Infrared Photodetection,' Advanced Optical Materials . 10, 2201443(2022)
[65]Z. Chen, M. Wei, Y. Luo, J. Jian, Y. Ye, Y. Yin, C. Sun, C. Zhong, K. Si, D. Zhang, H. Lin, and L. Li , 'Efficient and compact sol-gel TiO2 thermo-optic microring resonator modulator,' Optical Materials Express . 12, 4061-4071 (2022)
[64]C. Sun, Z. Chen, Y.Yin, Y.Ye, Y.Luo, H.Ma, J.Jian, Y.Shi, C.Zhong, D.Zhang, H. Lin, and L. Li , 'Broadband and High-Resolution Integrated Spectrometer Based on a Tunable FSR-Free Optical Filter Array,' ACS Photonics . 9,2973-2980(2022)
[63]K.Lei, M.Wei, Z.Chen, J.Wu, J.Jian, J.Du, J.Li, L.Li, and H.Lin , 'Magnetron-sputtered and thermal-evaporated low-loss Sb-Se phase-change films in non-volatile integrated photonics,' Opt. Mater. Express . 12, 2815-2823(2022)
[62]Y. Luo, C. Sun, H. Ma, M. Wei, J. Li, J. Jian, C. Zhong, Z. Chen, R. Tang, K. A. Richardson, H. Lin, and L. Li , 'Flexible passive integrated photonic devices with superior optical and mechanical performance ,' Optics Express . 30, 26534-26543(2022)
[61]K Liao, C Li, T Dai, C Zhong, H. Lin, X Hu*, and Q Gong , 'Matrix eigenvalue solver based on reconfigurable photonic neural network,' Nanophotonics. https://doi.org/10.1515/nanoph-2022-0109
[60]J Wu#, H Ma#, C Zhong#, M Wei, C Sun, Y Ye, Y Xu, B Tang, Y Luo, B Sun, J Jian, H Dai,H. Lin*, and L Li*, 'Waveguide-integrated PdSe2 photodetector with high responsivity and speed in the near-infrared range across the O+E+S+C bands ,' Nano letters. 22,6816-6824(2022)
[59]C Sun, M Wei, B Tang, H Ma, P Zhang, Y Luo, J Jian, L Li, and H Lin*, 'High-performance silicon PIN diode switches in the 2-µm wave band ,' Opt. Lett. 47, 2758-2761 (2022)
[58]M. Wei, H. Ma, C. Sun, C. Zhong, Y. Ye, P. Zhang, R. Liu, J. Li, L. Li, B. Tang*, and H. Lin*, 'TDFA-Band Silicon Optical Variable Attenuator,' Progress In Electromagnetics Research . 174,33-42(2022)
[57]C. Sun#, Y. Yin#, Z. Chen, Y. Ye, Y. Luo, H. Ma, L. Wang, M. Wei, J. Jian, R. Tang, H. Dai, J. Wu, J. Li, D. Zhang, H. Lin, and L. Li*, 'Tunable narrow-band single-channel add-drop integrated optical filter with ultrawide FSR,' PhotoniX . 3,12(2022)
[56]C. Zhong, Z. Zhang, H. Ma, M. Wei, Y. Ye, J. Wu, B. Tang, P. Zhang, R. Liu, J. Li, L. Li, X. Hu, K. Liu, and H. Lin*, 'Silicon Thermo-Optic Switches with Graphene Heaters Operating at Mid-Infrared Waveband,' Nanomaterials. 12,1083(2022)
[55]Y. Luo, C. Sun, H. Ma, M. Wei, J. Jian, C. Zhong, J. Li, R. Tang, Z. Chen, K. A. Richardson, H. Lin, and L. Li*, 'Interlayer Slope Waveguide Coupler for Multilayer Chalcogenide Photonics,' Photonics. 9,94(2022)
2021
[54]K Liao, Y Chen, Z. Yu, X. Hu*, X. Wang*, C. Lu, H. Lin*, Q. Du, J. Hu, Q. Gong, 'All-optical computing based on convolutional neural networks,' Opto-Electronic Advances. 4,200060(2021)
[53]Y Xiao, S Xue, C Kuang, A Yang, M Wei, H Lin, R Zhou*, 'High-speed Fourier ptychographic microscopy for quantitative phase imaging,' Optics Letters. 46,4785-4788(2021)
[52]H. Lin, C. S. Kim, L. Li, M. Kim, W. W. Bewley, C. D. Merritt, C. L. Canedy, I. Vurgaftman, A. Agarwal, K. Richardson, J. Hu*, and J. R. Meyer*, 'Monolithic chalcogenide glass waveguide integrated interband cascaded laser,' Optical Materials Express. 11,2869-2876(2021)
[51]H Yuan#, Z Liu#, M Wei#, H Lin*, X Hu*, C Lu*, 'Topological Nanophotonic Wavelength Router Based on Topology Optimization,' Micromachines. 12,1506(2021)
[50]J.Wu#, M. Wei#, J. Mu#, H. Ma, C. Zhong, Y. Ye, C. Sun, B. Tang, L.Wang, J. Li, X. Xu, B. Liu, L. Li*, and H. Lin*, 'High-Performance Waveguide-Integrated Bi2O2Se Photodetector for Si Photonic Integrated Circuits,' ACS Nano. 15,15982-15991(2021)
[49] C Zhong, H Ma, C Sun, M Wei, Y Ye, B Tang, P Zhang, R Liu, J Li, L Li, H. Lin*, 'Fast thermo-optical modulators with doped-silicon heaters operating at 2 μm,' Opt. Exp. 29, 23508-23516 (2021)
[48] H. Ma, H. Yang, B. Tang, M. Wei, J. Li, J. Wu, P. Zhang, C. Sun, L. Li, H. Lin*, 'Passive devices at 2 µm wavelength on 200 mm CMOS-compatible silicon photonics platform,' Chi. Opt. Lett. 19, 071301, (2021)
[47] C. Sun, C. Zhong, M. Wei, H. Ma, Y. Luo, Z. Chen, R.Tang, J. Jian, H. Lin, L. Li*, 'Free-spectral-range-free filters with ultrawide tunability across the S+ C+ L band,' Photon. Research 9, 1013-1018, (2021)
[46] (Invited)J. Wu, H. Ma, P. Yin, Y. Ge, Y. Zhang, L. Li*, H. Zhang*, and H. Lin*, 'Two‐Dimensional Materials for Integrated Photonics: Recent Advances and Future Challenges,' Small Sci. 2000053 (2021) .
2020
[45] (Invited) C. Zhong, J. Li, H. Lin*, 'Graphene-based all-optical modulators,' Front. Optoelectron. 13, 114-128 (2020).
[44] (Invited) J. Li, Y. Huang, Y. Song, L. Li, H. Zheng, H. Wang, T. Gu, K. Richardson, J. Kong, J. Hu, and H. Lin*, 'High-performance graphene-integrated thermo-optic switch: design and experimental validation,' Opt. Mater. Express 10, 387-396 (2020).
[43] J. Michon, S. Geiger, L. Li, C. Gonçalves, H. Lin, K. Richardson, X. Jia, and J. Hu*, '3D integrated photonics platform with deterministic geometry control,' Photon. Res. 8, 194-201 (2020).
2019
[42] C. Su, Z. Yin, Q. Yan, Z. Wang, H. Lin, L. Sun, W. Xu, T. Yamada, X. Ji, N. Zettsu, K. Teshima, J. Warner, M. Dincă, J. Hu, M. Dong, G. Su, J. Kong, and J. Li*, 'Waterproof molecular monolayers stabilize 2D materials,' Proc. Natl. Acad. Sci. 116, 20844-20849 (2019).
[41] S. Serna, H. Lin, C. Alonso-Ramos, C. Lafforgue, X. Le Roux, K. Richardson, E. Cassan, N. Dubeuil, J. Hu, and L. Vivien*, 'Engineering third order optical nonlinearities in hybrid chalcogenide-on-silicon platform,' Opt. Lett. 44, 5009-5012 (2019).
[40] Y. Zhang#, J. Chou#, J. Li#, H. Li#, Q. Du, A. Yadav, S. Zhou, M. Shalaginov, Z. Fang, H. Zhong, C. Roberts, P. Robinson, B. Bohlin, C. Rios, H. Lin, M. Kang, T. Gu, J. Warner, V. Liberman, K. Richardson, and J. Hu*, 'Broadband Transparent Optical Phase Change Materials for High-Performance Nonvolatile Photonics,' Nat. Commun. 10, 4279 (2019).
[39] S. Deckoff-Jones, Y. Wang, H. Lin, W. Wu, and J. Hu*, 'Tellurene: A Multifunctional Material for Mid-infrared Optoelectronics,' ACS Photonics 6, 1632-1638 (2019).
[38] B. Shen, H. Lin, F. Merget, S. Azadeh, C. Li, G. Lo, K. Richardson, J. Hu, and J. Witzens*, 'Broadband couplers for hybrid silicon-chalcogenide glass photonic integrated circuits,' Opt. Express 27, 13781-13792 (2019).
[37] S. Geiger*, Q. Du, B. Huang, M. Y. Shalaginov, J. Michon, H. Lin, T. Gu, A. Yadav, K. Richardson, X. Jia, and J. Hu*, 'Understanding aging in chalcogenide glass thin films using precision resonant cavity refractometry,' Opt. Mater. Express 9, 2252-2263 (2019).
[36] P. Su, Z. Han, D. Kita, P. Becla, H. Lin, S. Deckoff-Jones, K. Richardson, L. C. Kimerling, J. Hu, and A. Agarwal*, 'Monolithic on-chip mid-IR methane gas sensor with waveguide-integrated detector,' Appl. Phys. Lett. 114, 051103 (2019).
2018
[35] D. Kita*, B. Miranda, D. Favela, D. Bono, J. Michon, H. Lin, T. Gu, and J. Hu*, 'High-performance and scalable on-chip digital Fourier transform spectroscopy,' Nat. Commun. 9, 4405 (2018).
[34] L. Zhang, J. Ding, H. Zheng, S. An, H. Lin, B. Zheng, Q. Du, G. Yin, J. Michon, Y. Zhang, Z. Fang, M. Shalaginov, L. Deng, T. Gu*, H. Zhang*, and J. Hu*, 'Ultra-thin, High-efficiency Mid-Infrared Transmissive Huygens Meta-Optics,' Nat. Commun. 9, 1481 (2018).
[33] S. Serna*, H. Lin, C. Alonso-Ramos, A. Yadav, X. Le Roux, K. Richardson, E. Cassan, N. Dubeuil, J. Hu, and L. Vivien, 'Nonlinear optical properties of integrated GeSbS chalcogenide waveguides,' Photon. Res. 6, B37-B42 (2018).
[32] (Invited) S. Deckoff-Jones#*, H. Lin#, D. Kita, H. Zheng, D. Li, W. Zhang, J. Hu*, 'Chalcogenide Glass Waveguide-integrated Black Phosphorus Mid-Infrared Photodetectors', J. Opt. 20, 044004 (2018). († denotes equal contributing authors).
[31] L Li#, H Lin#, Y Huang, RJ Shiue, A Yadav, J Li, J Michon, D. Englund, K. Richardson, T. Gu, J. Hu*, “High-performance flexible waveguide-integrated photodetectors”, Optica 5, 44-51 (2018). († denotes equal contributing authors).
[30] (Invited) H. Lin*, Z. Luo, T. Gu, L. C. Kimerling, K. Wada, A. Agarwal, J. Hu*, “Mid-infrared Integrated Photonics on Silicon -- A Perspective Nanophotonics”, Nanophotonics 7, 393-420 (2018).
[29] L. Li#*, H. Lin#, S. Qiao#, Y. Huang, J. Li, J. Michon, T. Gu, C. Ramos, L. Vivien, A. Yadav, D. Hewak, K. Richardson, N. Lu and J. Hu*, 'Monolithically Integrated Stretchable Photonics', Light Sci. Appl. 7, 17138 (2018). († denotes equal contributing authors).
2017及以前
[28] H. Lin#*, Y. Song#, Y. Huang#, D. Kita#, S. Deckoff-Jones, K. Wang, L. Li, J. Li, H. Zheng, Z. Luo, H. Wang, S. Novak, A. Yadav, C. Huang, R.J. Shiue, D. Englund, T. Gu, D. Hewak, K. Richardson, J. Kong, and J. Hu*, “Chalcogenide glass-on-graphene photonics”, Nat. Photon. 11, 798–805 (2017).
[27] (Invited) L. Li, H. Lin, J. Michon, Y. Huang, J. Li, Q. Du, A. Yadav, K. Richardson, T. Gu, and J. Hu*, 'A new twist on glass: a brittle material enabling flexible integrated photonics,' Int. J. Appl. Glass Sci. 8 (1), 61-68 (2017)
[26] S. Novak*, V. Singh, C. Monmeyran, A. Ingram, Z. Han, H. Lin, N. Borodinov, N. Patel, Q. Du, J. Hu, I. Luzinov, R. Golovchak, A. Agarwal, and K. Richardson, 'Positron annihilation lifetime spectroscopy (PALS) studies of gamma irradiated As2Se3 films used in MIR integrated photonics,' J. Non-Cryst. Solids 455, 29-34 (2017).
[25] (Invited) D. Kita, H. Lin, A. Agarwal, I. Luzinov, T. Gu, K. Richardson, and J. Hu*, “On-chip infrared spectroscopic sensing: redefining the benefits of scaling,” IEEE J. Sel. Top. Quantum Electron. 23, 5900110 (2017).
[24] Q. Du, Y. Huang, J. Li, D. Kita, J. Michon, H. Lin, L. Li, S. Novak, K. Richardson, W. Zhang, and J. Hu*, “Low Loss Photonic Device in Ge-Sb-S Chalcogenide Glass,” Opt. Lett. 41, 3090-3093 (2016).
[23] (Feature article) L. Li, H. Lin, S. Geiger, A. Zerdoum, P. Zhang, O. Ogbuu, Q. Du, X. Jia, S. Novak, C. Smith, K. Richardson, J. D. Musgraves, and J. Hu*, 'Amorphous thin films for mechanically flexible, multimaterial integrated photonics,' Am. Ceram. Soc. Bull. 95, 34-36 (2016).
[22] L. Zhu, F. Liu, H. Lin, J. Hu, Z. Yu*, X. Wang*, and S. Fan*, 'Angle-selective perfect absorption with two-dimensional materials,' Light Sci. Appl. 5, e16052 (2016).
[21] F. Jiang, L. Bi*, H. Lin, Q. Du, J. Hu, A. Guo, C. Li, J. Xie, and L. Deng*, 'Microstructure, optical properties, and optical resonators of Hf 1-x Ti x O 2 amorphous thin films,' Opt. Mater. Express 6, 1871-1880 (2016).
[20] L. Li, P. Zhang, W.-M. Wang, H. Lin, A. B. Zerdoum, S. J. Geiger, Y. Liu, N. Xiao, Y. Zou, O. Ogbuu, Q. Du, X. Jia, J. Li, and J. Hu*, 'Foldable and Cytocompatible Sol-gel TiO2 Photonics,' Scientific Reports 5, 13832 (2015).
[19] O. Ogbuu*, Q. Du, H. Lin, L. Li, Y. Zou, E. Koontz, C. Smith, S. Danto, K. Richardson, and J. Hu*, 'Impact of Stoichiometry on Structural and Optical Properties of Sputter Deposited Multicomponent Tellurite Glass Films,' J. Am. Ceram. Soc. 98, 1731-1738 (2015).
[18] (Invited cover article) J. Hu, L. Li, H. Lin, Y. Zou, Q. Du, C. Smith, S. Novak, K. Richardson, and J. D. Musgraves*, “Chalcogenide glass microphotonics: Stepping into the spotlight,” Am. Ceram. Soc. Bull. 94, 24-29 (2015).
[17] H. Lin, X, Sun, J. Liu, J. Hu*, “Diffractive broadband coupling into high-Q resonant cavities”, Opt. Lett. 40, 2377-2380 (2015)
[16] L. Li#, H. Lin#, S. Qiao#, Y. Zou, S. Danto, K. Richardson, J. D. Musgraves, N. Lu, and J. Hu*, ' Integrated flexible chalcogenide glass photonic devices,' Nat Photon 8, 643-649 (2014). († denotes equal contributing authors).
[15] Y. Chen#, H. Lin#, J. Hu, and M. Li*, “Heterogeneously integrated silicon photonics for the mid-infrared and spectroscopic sensing,” ACS Nano 8, 6955-6961 (2014). († denotes equal contributing authors).
[14] Y. Zou, L. Moreel, L. Savelli, H. Lin, J. Zhou, L. Li, S. Danto, J. D. Musgraves, K. Richardson, K. Dobson, R. Birkmire, and J. Hu*, “Solution processing and resist-free nanoimprint fabrication of thin film chalcogenide glass devices: a new pathway towards inorganic-organic hybrid photonic integration,” Adv. Opt. Mater. 2, 759-764 (2014).
[13] Y. Zou, D. Zhang, H. Lin, L. Li, L. Moreel, J. Zhou, Q. Du, O. Ogbuu, S. Danto, J. D. Musgraves, K. Richardson, K. Dobson, R. Birkmire, and J. Hu*, 'High-Performance, High-Index-Contrast Chalcogenide Glass Photonics on Silicon and Unconventional Nonplanar Substrates,' Adv. Opt. Mater. 2, 478-486 (2014).
[12] (Invited) V. Singh*, P. T. Lin, N. Patel, H. Lin, L. Li, Y. Zou, F. Deng, C. Ni, J. Hu, and J. Giammarco, 'Mid-infrared materials and devices on a Si platform for optical sensing,' Science and Technology of Advanced Materials 15, 014603 (2014).
[11] H. Lin, O. Ogbuu, J. Liu, L. Zhang, J. Michel, and J. Hu*, “Breaking the energy-bandwidth limit of electro-optic modulators: theory and a device proposal,” J. Lightwave Technol. 31, 4029-4036 (2013).
[10] H. Lin, L. Li, F. Deng, C. Ni, S. Danto, J. D. Musgraves, K. Richardson, and J. Hu*, “Demonstration of mid-infrared waveguide photonic crystal cavities,” Opt. Lett. 38, 2779-2782 (2013)
[9] H. Lin, L. Li, Y. Zou, S. Danto, J. D. Musgraves, K. Richardson, S. Kozacik, M, Murakowski, D. Prather, P. T. Lin, V. Singh, A. Agarwal, L. Kimerling, and J. Hu*, “Demonstration of high-Q mid-infrared chalcogenide glass-on-silicon resonators,” Opt. Lett. 38, 1470-1472 (2013).
[8] L. Li#, Y. Zou#, H. Lin, J. Hu*, X. Sun, N. Feng, S. Danto, K. Richardson, T. Gu, and M. Haney, 'A Fully-integrated Flexible Photonic Platform for Chip-to-chip Optical Interconnects,' J. Lightwave Technol. 31, 4080-4086 (2013).
[7] N. Duan, H. Lin, L. Li, J. Hu, L. Bi*, H. Lu, X. Weng, J. Xie, and L. Deng, 'ZrO2-TiO2 thin films: a new material system for mid-infrared integrated photonics,' Opt. Mater. Express 3, 1537-1545 (2013)
[6] P. T. Lin*, V. Singh, J. Wang, H. Lin, J. Hu, K. Richardson, J. D. Musgraves, I. Luzinov, J. Hensley, and L. C. Kimerling, 'Si-CMOS compatible materials and devices for mid-IR microphotonics,' Opt. Mater. Express 3, 1474-1487 (2013)
[5] (Invited) J. Hu*, L. Li, H. Lin, P. Zhang, W. Zhou*, and Z. Ma*, 'Flexible integrated photonics: where materials, mechanics and optics meet,' Opt. Mater. Express 3, 1313-1331 (2013)
[4] Y. Zou, H. Lin, O. Ogbuu, L. Li, S. Danto, S. Novak, J. Wilkinson, J. D. Musgraves, K. Richardson, and J. Hu*, “Effect of annealing conditions on the physio-chemical properties of spin-coated As2Se3 chalcogenide glass films,” Opt. Mater. Express 2, 1723-1732 (2012)
[3] H. Lin, Y. Zou, and J. Hu*, 'Double resonance 1-D photonic crystal cavities for single-molecule mid-infrared photothermal spectroscopy: theory and design,' Opt. Lett. 37, 1304-1306 (2012).
[2] H. W. Liang, X. Cao, W. J. Zhang, H. T. Lin, F. Zhou, L. F. Chen, and S. H. Yu*, 'Robust and Highly Efficient Free-Standing Carbonaceous Nanofiber Membranes for Water Purification,' Adv. Funct. Mater. 21, 3851-3858 (2011).
[1] H. W. Liang, L. Wang, P. Y. Chen, H. T. Lin, L. F. Chen, D. A. He, and S. H. Yu*, 'Carbonaceous Nanofiber Membranes for Selective Filtration and Separation of Nanoparticles,' Adv. Mater. 22, 4691-4695 (2010).