学术论文: Sai Jiang*, Yun Li*, et al. "Robust Sb2Se3/Hafnium Zirconium Oxide Synaptic Memristors with Dynamic Learning Rate Strategy for Generalizable Neuromorphic Networks", Advanced Functional Materials, 0:e27371 (2025). Chen X, Gu J, Zhang Z, Sai Jiang*. Reconfigurable neuromorphic networks enabled by robust organic memristors with tunable plasticity[J]. Journal of Physics D: Applied Physics, 58(41): 415108 (2025). Zhang T, Yang Y, Dong J, Sai Jiang*, Huafei Guo*, et al. Regulation of the Charge Carrier Dynamics in Antimony Selenide Thin‐Film Solar Cells Based on the Effective Diffusion of Ions at the Heterojunction Interface[J]. Advanced Functional Materials, 35(13): 2417868 (2025). Zhang J, Shen B, Dong J, Sai Jiang*, Huafei Guo*, et al. Modulation of carrier dynamics via dual-hole transport layers in high-efficiency antimony selenide thin-film solar cells[J]. Journal of Materials Chemistry C, 13(45): 22750-22756, (2025). Sai Jiang*, Yun Li*, et al. "Energy-Efficient Reservoir Computing Based on Solution-Processed Electrolyte/Ferroelectric Memcapacitive Synapses for Biosignal Classification", Journal of Physical Chemistry Letters, 8501–8509 (2024). Sai Jiang*, Yun Li*, et al. "Task-Adaptive Neuromorphic Computing Using Reconfigurable Organic Neuristors with Tunable Plasticity and Logic-in-Memory Operations", Journal of Physical Chemistry Letters, 15, 2301–2310 (2024). Xu Chen, Jianhang Guo, Lichao Peng, Qijing Wang, Sai Jiang#, and Yun Li#. “Charge transport in organic field-effect transistors”. Materials Today Electronics, 100077 (2023). Sai Jiang*, Yun Li*, et al. "Self-powered organic optoelectronic synapses with binarized weights for noise-suppressed visual perception and high-robustness inference", ACS Applied Electronic Materials, 5, 4915–4924 (2023). Sai Jiang, Yun Li, et al. "Large-area monolayer n-type molecular semiconductors with improved thermal stability and charge injection", Chinese Physics Letters, in press (2023). Kuakua Lu*, Longfei Li*, Sai Jiang*(Co-author), Chen Xu, Qiong Chang*, Yi Shi*, and Yun Li*, "Advanced bioinspired organic sensors for future-oriented intelligent applications", Advanced Sensor Research, 2, 2200066 (2023). Sai Jiang*, Yun Li, et al., "In-situ/operando characterization techniques for organic semiconductors and devices", Journal of Semiconductors, 43, 041101(2022). Hengyuan Wang*, Sai Jiang* (Co-author), Yi Shi, and Yun Li, et al. "Molecular-Layer-Defined Asymmetric Schottky Contacts in Organic Planar Diodes for Self-Powered Optoelectronic Synapses", the Journal of Physical Chemistry Letters, 13, 2338 (2022). Ziqian Hao*, Hengyuan Wang*, Sai Jiang* (Co-author), Jianpu Wang, Xinran Wang, Yi Shi*, and Yun Li*,et al. "Retina-inspired self-powered artificial optoelectronic synapses with selective detection in organic asymmetric heterojunctions", Advanced Science, 9, 2103494 (2022). Shizan Zou*, Hengyuan Wang*, Jianhang Guo*, Sai Jiang* (Co-author), Yun Li*, et al. "Asymmetric electrode geometry induced photovoltaic behavior for self-powered organic artificial synapses", Flexible and Printed Electronics, 6, 044009 (2021). Sai Jiang,Yi Shi, Yun Li, et al. “Molecular Layer-Defined Transition of Carrier Distribution and Correlation with Transport in Organic Crystalline Semiconductors”, ACS Applied Materials & Interfaces.12, 26267–26275 (2020). Sai Jiang,Yi Shi, Yun Li, et al. “Millimeter-Sized Two-Dimensional Molecular Crystalline Semiconductors with Precisely Defined Molecular Layers via Interfacial-Interaction-Modulated Self-Assembly”, the Journal of Physical Chemistry Letters, 6755-6760 (2018). Sai Jiang, Yi Shi, Yun Li, et al. “Probing Coulomb Interactions on Charge Transport in Few-layer Organic Crystalline Semiconductors by the Gated van der Pauw Method”, Advanced Electronic Materials. 2000136 (2020).
专利: 李昀,姜赛,钱君,田仁宝。一种液相制备超薄二维电学功能性薄膜的方法,中国,发明,授权,专利申请号:201610826195.4。 姜赛,彭立超,杜晓松,等.基于界面增强的有机反双极型晶体管器件及其制备方法[P].江苏省:CN202310285100.2,2023-06-06. 李昀,郝紫千,王恒远,姜赛等.一种具有选择性探测功能的自供电人造光电突触及其制备方法[P].江苏省:CN202111518420.5,2022-03-18. 杜晓松,毛志润,姜赛,等.一种侧壁绝缘栅双极性发光三极管显示装置及其制备方法[P].江苏省:CN202210589815.2,2022-10-11.
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