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[1]songying,Donor-acceptor hyperbranched copolyimides contain different linear segment for electrochromic and resistive memory devices.Materials Today Communications,2023(37):1
[2]songying,Xiangyong Wu,Xian Deng,Zhengxiao Zhang,Hao Su,hanying,Yihui Shen,Sitong Liu,Keying Sun,Honyan Yao,Shaowei Guan.Polyacrylamide/sodium alginate photochromic hydrogels with enhanced toughness and fast response for optical display and rewritable information record.Dyes and Pigments,2022:1
[3]songying,Hongyan Yao,Ye Tian,Shiyang Zhu,Shaowei Guan.【SCI2区第一/通讯作者宋颖】Tuning memory behavior from volatile to nonvolatile by increasing the linear segment length of hyperbranched copolyimides.Dyes and Pigments,2022(204):1
[4]songying,Liqun Zhao,Hongyan Yao,Ye Tain,Shiyang Zhu,Shaowei Guan.【SCI通讯】Novel Hyperbranched Polyimides Bearing Bis(trifluoromethyl)‐triphenylamine Moiety: Preparation and Rewritable Nonvolatile Memory Behaviours.ChemistrySelect,2021,6(10):1
[5]Tuning electrical memory properties by varying terminal moieties of functional hyperbranched polyimides. Dyes and Pigments.Dyes and Pigments,2017
[6]Design and synthesis of ferrocene-terminated hyperbranched polyimide for memory devices..Dyes and Pigments,2017
[7]Design and synthesis of hyperbranched polyimide containing multi-triphenylamine moieties for memory device.RSC Advances,2017
[8]Synthesis and memory characteristics of highly organo-soluble hyperbranched polyimides with various electron acceptors.J. Polym. Sci., Part A: Polym. Chem,2017
[9]Changing the memory behaviors from volatile to nonvolatile via end-capping of hyperbranched polyimides with polycyclic arenes.Dyes and Pigments,2017
[10]Improving resistive switching characteristics of polyimide-based volatile memory devices by introducing triphenylamine branched structures.Dyes and Pigments,2019
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