立志微纳,成才卓越

工艺技术


序号2024年度致谢SMDL的科研论文发表期刊课题组
1T. Li, H. Zhang, P. Zhou, Y. Lin, Y. Sun, Y. Liu, X. Xu, Y. Zou, Morphology Engineering Enabled Mid-Infrared Ultra-Dense Waveguide Array with Low Crosstalk. Laser Photonics Rev 2024, 2400297. https://doi.org/10.1002/lpor.202400297Laser & Photonics Reviews上海科技大学,邹毅课题组
2W. Huang, L. Xia, T. Li, J. Li, T. Wu and Y. Zou, Aluminum nitride assisted silicon thermo-optic phase shifter, in Journal of Lightwave Technology, doi: 10.1109/JLT.2024.3435534.Journal of Lightwave Technology上海科技大学,邹毅课题组
3Coupling controlled photonic topological ring arrayACS Photonics上海科技大学,邹毅课题组
4Chen, Si, Yuhan Sun, Hong Zhang, Tianping Xu, Zunyue Zhang, Qun Han, Tiegen Liu, Yi Zou, and Zhenzhou Cheng. Mid‐Infrared Hyperuniform Disordered Solids Waveguide Devices with Morphology Engineering and Wall‐Network Regulation. Laser & Photonics Reviews: 2400469.Laser & Photonics Reviews上海科技大学,邹毅课题组
5Mid-infrared waveguide-integrated and photo-thermoelectric graphene photodetector based on germanium-on-silicon platformAPL Photonics上海科技大学,邹毅课题组
6“Morphology Design for Crosstalk Suppression of Mid-infrared Dense Waveguide Arrays”. In OECC 2024 at Melbourne.OECC上海科技大学,邹毅课题组
7Z. Yan et al., Broadband mid-infrared continuous-wave wavelength conversion in a germanium-on-silicon waveguide, 2024 Optical Fiber Communications Conference and Exhibition (OFC), San Diego, CA, USA, 2024, pp. 1-3.Microsystems & Nanoengineering上海科技大学,邹毅课题组
8Inverse Design of a Wavelength (De)Multiplexer for 1.55- and 2-μm Wavebands by Using a Hybrid Analog-Digital MethodJOURNAL OF LIGHTWAVE TECHNOLOGY上海科技大学,邹毅课题组
9H. Zhang, T. Li, P. Zhou, X. Xu, and Y. Zou, Low Crosstalk, Dual-polarization Dense Waveguide Array, in CLEO 2024 (Optica Publishing Group, 2024), p. AM2J.6.CLEO上海科技大学,邹毅课题组
10On-chip ultra-high rejection and narrow bandwidth filter based on coherency-broken cascaded cladding-modulated gratingsPhotonics Research上海科技大学,邹毅课题组
11Yun Chen, Pengjun Wang, Qiang Fu, Yuhan Sun, Yi Zou, Shixun Dai, Weiwei Chen, Haoqi Chen, Jun Li, Tingge Dai, and Jianyi Yang, Low-loss and low-cross talk polarization-insensitive multimode silicon waveguide crossing, Opt. Lett. 49, 4930-4933 (2024)Optics Letters上海科技大学,邹毅课题组
12L. Xia, Y. Liu, R.T. Chen, B. Weng, and Y. Zou, “Advancements in miniaturized infrared spectroscopic-based volatile organic compound sensors: A systematic review,” Applied Physics Reviews 11(3), 031306 (2024).Applied Physics Reviews上海科技大学,邹毅课题组
13C. Chang, Y. Sun, T. Li, P. Zhou and Y. Zou, Coupling controlled photonic topological ring array, 2024 IEEE Silicon Photonics Conference (SiPhotonics), Tokyo Bay, Japan, 2024, pp. 1-2, doi: 10.1109/SiPhotonics60897.2024.10543997.IEEE Silicon Photonics Conference上海科技大学,邹毅课题组
14Yitai Zhu, Yu Zhang, Haolan Qu, Han Gao, Haitao Du, Haowen Guo, and Xinbo Zou*, Suppressed current collapse and improved threshold voltage stability of AlGaN/GaN HEMT via O2 plasma treatment, Microelectronics Journal, 2024, 148, 106191. DOI: 10.1016/j.mejo.2024.106191.Microelectronics Journal上海科技大学,邹新波课题组
15Han Gao#, Yitian Gu#, Yu Zhang, Jialun Li, Junmin Zhou, Haowen Guo, Kei May Lau, and Xinbo Zou*, 545 mA/mm E-mode Recessed-Gate GaN MOSHEMT (Vth > 4V) by Ion Beam Etching, IEEE Electron Device Letters, 2024, 45(6): 968-971. DOI: 10.1109/LED.2024.3386824.IEEE Electron Device Letters上海科技大学,邹新波课题组
16Jiaxiang Chen#, Haitao Du#, Haolan Qu, Han Gao, Yitian Gu, Yitai Zhu, Wenbo Ye, Jun Zou, Hongzhi Wang, and Xinbo Zou*, AlGaN/GaN MOS-HEMT Enabled Optoelectronic Artificial Synaptic Devices for Neuromorphic Computing, Applied Physics Letters Machine Learning, 2024, 2(2), 026113. DOI:10.1063/5.0194083.Applied Physics Letters Machine Learning上海科技大学,邹新波课题组
17Tianyuan Cui, Jie Deng, Jing Zhou*, Tianyun Zhu, Bo Wang, Jiexian Ye, Xiaofei He, Huiming Luo, Junwei Huang, Yujie Zhang, Xiaoshuang Chen*, Wei Lu, Quasi-bound state in the continuum enhancing background limited infrared detectivity, Optics & Laser Technology 181, 12002 (2025).Optics & Laser Technology中国科学院上海技术物理研究所,周靖课题组
18Wu L, Shi M, Dai Z, et al. Visible-to-mid-infrared in-sensor computing with a reconfigurable black phosphorus photodiode[J]. IEEE Electron Device Letters, 2024.IEEE Electron Device Letters中国科学院上海技术物理研究所,周靖课题组
19Jie Deng†, Mengdie Shi†, Xingsi Liu†, Jing Zhou*, Xinyue Qin, Ruowen Wang, Yuran Zhen, Xu Dai, Yinzhu Chen, Jingxuan Wei, Zhenhua Ni, Weibo Gao, Cheng-Wei Qiu*, Xiaoshuang Chen*, “An on-chip full-Stokes polarimeter based on optoelectronic polarization eigenvectors”, Nature Electronics,Nature Electronics中国科学院上海技术物理研究所,周靖课题组
20Deng, J. et al. An on-chip full-stokes polarimeter based on optoelectronic polarization eigenvectors. Nat. Electron. (2024) doi:10.1038/s41928-024-01287-w.Nature Electronics中国科学院上海技术物理研究所,周靖课题组
21Li F, Zhou J, Deng J, et al. Enhanced THz Circular-Polarization Detection in Miniaturized Chips with Chiral Antennas[C]//Photonics. MDPI, 2024, 11(2): 162.Photonics中国科学院上海技术物理研究所,周靖课题组
22Dai X, Yu Y, Ye T, et al. Dynamically reconfigurable on-chip polarimeters based on nanoantenna enabled polarization dependent optoelectronic computing[J]. Nano Letters, 2024, 24(3): 983-992.Nano Letters中国科学院上海技术物理研究所,周靖课题组
23Tian Y, Yin J, Wang C, et al. An ultraflexible electrode array for large-scale chronic recording in the Nonhuman Primate Brain. Adv Sci. 2023; 10(33):2302333. https://doi.org/10.1002/advs.202302333Advanced Science中国科学院脑科学与智能技术卓越创新中心,赵郑拓课题组
24R. Xiong, L. Jin, K. Xu, W. Li, S. Du, Y. Wang, F. Chen, and T. Wu, “A Miniaturized MEMS Accelerometer with Anti-Spring Mechanism for Enhancing Sensitivity,” Microsyst Nanoeng, vol. 10. 2024, doi: 10.1038/s41378-024-00826-x.Microsystems & Nanoengineering上海科技大学,吴涛课题组
25Ruihong Xiong etal “A novel near-zero stiffness mems accelerometer based on dual nonlinear curved beams anti-spring mechanism,” in 2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS), Kaohsiung, Taiwan: IEEEIEEE MEMS上海科技大学,吴涛课题组
26Yu, S., Kang, H., Shen, X., Xue, Y., Wan, W., Zou, C., Chen, B., & Lu, J. (2024). Poling-assisted hydrofluoric acid wet etching of thin-film lithium niobate. Optics Letters, 49(4), 854. https://doi.org/10.1364/OL.515879Optics Letters上海科技大学,陆娟娟课题组
27P.Y Huang, Shan Yao, Aitian Chen, Z.H Zhi, C.Y Fu, Z. Zhu, P. Chen, H. Wu, D. Wu, S.Z Peng, Y.M Yang, X.X Zhang, and X.F Kou, “Field-Free Rashba-Type Crystal Torque MRAM with High Efficiency and Thermal Stability”, IEEE International Electron Devices Meeting (IEDM 2024) 42.3.1-42.3.4 (2024)IEEE International Electron Devices上海科技大学,寇煦丰课题组
28P.Y Huang, X.Q Liu, Y. Xin, Y. Gu, A. Lee, Y.F Zhang, Z. Xu, P. Chen, Y. Zhang, W.J Deng, G.Q Yu, D. Wu, Z.K Liu, Q. Yao, Y.M Yang, Z.F Zhu, and X.F Kou, “Integrated Artificial Neural Network with Trainable Activation Function Enabled by Topological Insulator-based Spin-Orbit Torque Devices”, ACS Nano 18, 29469–29478 (2024)ACS Nano上海科技大学,寇煦丰课题组
29J.M Liu, L.Y Liao, B. Rong, Y.Y Wu, Y. Zhang, H.Z Ruan, Z.H Zhi, P.Y Huang, S. Yao, X.Y Cai, C.J Tang, Q. Yao, L. Sun, Y.M Yang, G.Q Yu, R.C Che#, and X.F Kou#, “Observation of moment-dependent and field-driven unidirectional magnetoresistance in CoFeB/InSb/CdTe heterostructures”, ACS Appl. Mater. Interfaces 16, 45687−45694 (2024)ACS Applied Materials & Interfaces上海科技大学,寇煦丰课题组
30P.Y Huang, A.T Chen, J.T Dong, D. Wu, X.Q Liu, Z.H Zhi, J.M Liu, A. Lee, B. Fang, J. Zhang, X.X Zhang#, and X.F Kou#, “Interfacial Resonance State-Induced Negative Tunneling Magneto-resistance in Orthogonally-Magnetized CoFeB/MgO/CoFeB”, IEEE Trans. Magn. 60, 1-6 (2024)IEEE Transactions on Magnetics上海科技大学,寇煦丰课题组
31X.Q Liu, P.Y Huang, Y.Y.Y Xia, L. Gao, L.Y Liao, B.S Cui, D. Backes, G. van der Laan, T. Hesjedal, Y.C Ji, P. Chen, Y.F Zhang, F. Wu, M.X Wang, J.W Zhang, G.Q Yu, C. Song, Y.L Chen, Z.K Liu, Y.M Yang, Y. Peng, G. Li, Q. Yao, X.F Kou, “Wafer-scale epitaxial growth of the thickness-controllable van der Waals ferromagnet CrTe2 for reliable magnetic memory applications”, Adv. Func. Mater. 33, 2304454 (2023)Advanced Functional Materials上海科技大学,寇煦丰课题组
32B. Liu, Q. Liu, J. Feng, Operando Colorations from Real-Time Growth of 3D-Printed Nanoarchitectures. Adv. Mater. 2024, 36, 2404977.ADVANCED MATERIALS上海科技大学,冯继成课题组