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机译:质子传导C_3N_4 /壳聚糖复合电解质基于人工突触的inzno薄膜晶体管
School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 People's Republic of China;
School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 People's Republic of China Key Laboratory of Advance Display and System Applications Ministry of Education Shanghai University Shanghai 200072 People's Republic of China;
School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 People's Republic of China;
School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 People's Republic of China;
School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 People's Republic of China;
School of Material Science and Engineering Shanghai University Jiading Shanghai 201800 People's Republic of China Key Laboratory of Advance Display and System Applications Ministry of Education Shanghai University Shanghai 200072 People's Republic of China;
Key Laboratory of Advance Display and System Applications Ministry of Education Shanghai University Shanghai 200072 People's Republic of China;
Synaptic transistor; Two-dimensional material; Chitosan; C_3N_4 film;
机译:基于壳聚糖生物聚合物电解质浇筑氧化物电双层晶体管的人工突触和逆变器实现
机译:基于壳聚糖膜上质子横向耦合晶体管的独立式人工突触
机译:通过完全水溶液仿真的人工突触通过GD2O3固体电解质加工低压In2O3薄膜晶体管。
机译:溶液处理的壳聚糖质子导体门控的低压铟锌氧化物薄膜晶体管
机译:使用忆阻突触和纳米晶体硅薄膜晶体管的人工神经系统
机译:基于具有纳米厚度的薄膜晶体管的灵活透明的人工突触装置勘误
机译:通过完全水溶液加工的低压In2O3薄膜晶体管模拟人工突触,具有GD2O3固体电解质