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).