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机译:基于噻吩和噻唑单元的纳级膜膜形态和N型数字记忆特性
Department of Chemistry Division of Advanced Materials Science Pohang Accelerator Laboratory and Polymer Research Institute Pohang University of Science and Technology Pohang 37673 Republic of Korea;
Department of Chemistry Division of Advanced Materials Science Pohang Accelerator Laboratory and Polymer Research Institute Pohang University of Science and Technology Pohang 37673 Republic of Korea;
Department of Organic Materials Science Graduate School of Materials Science Yamagata University 4-3-16 Jo-nan Yonezawa Yamagata 992-8510 Japan;
Organic Nanoelectronics Laboratory and KNU Institute for Nanophotonics Applications Department of Chemical Engineering School of Applied Chemical Engineering Kyungpook National University University Road 80 Daegu 41566 Republic of Korea;
Department of Chemistry Division of Advanced Materials Science Pohang Accelerator Laboratory and Polymer Research Institute Pohang University of Science and Technology Pohang 37673 Republic of Korea;
Department of Organic Materials Science Graduate School of Materials Science Yamagata University 4-3-16 Jo-nan Yonezawa Yamagata 992-8510 Japan;
Department of Chemistry Division of Advanced Materials Science Pohang Accelerator Laboratory and Polymer Research Institute Pohang University of Science and Technology Pohang 37673 Republic of Korea;
donor–acceptor polymers; digital permanent memory; edge-on structures; face-on structures; n-type memory; thiadiazole/thiophene-based polymers;
机译:基于噻吩和噻唑单元的纳级膜膜形态和N型数字记忆特性
机译:通过基于噻吩-喹喔啉交替共聚物的工程主链操作计算供体-受体共轭聚合物的计算模型
机译:供体 - 受体交替对H形噻吩-Imidazo的光功率限制行为的影响[2,1- b] [1,3,4]噻二唑侧缀合的低聚物
机译:基于噻吩的交替供体 - 受体共轭聚合物及其模型化合物的理论研究
机译:基于Pi共轭给体和受体的轮烷和光伏材料:朝着纳米级的能量转换方向发展。
机译:萘并12-c:56-c双125噻二唑基非富勒烯受体:噻吩单元上取代基对性质和光伏特性的影响
机译:由烷基噻吩(单位A)和哒嗪(单元B)构成的新的共面(ABA)N型供体 - 受体P-缀合的共聚物:使用六甲基二维蛋白,自组织的固体结构和共聚物的光学和电化学性质合成