关键词云

成果统计

合作作者[TOP 5]

  • 叶春洪

    合作成果数:7

  • 贺义升

    合作成果数:6

  • 孟晓

    合作成果数:6

  • 崔彤彤

    合作成果数:3

  • 王习

    合作成果数:3

金博闻 硕士生
所在学院: 物质科学与技术学院
职务: --
研究方向:
备注: --
金博闻

科研成果

8 2094 15 39 0 4
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 [1] He, Yisheng.,Meng, Xiao.,Shen, Zhili.,Jin, Bowen.,Chen, Xinyi.,...&Ye, Chunhong.(2024).Dynamically Tunable Chiroptical Activities of Flexible Chiral Plasmonic Film via Surface Buckling.SMALL.浏览/下载:114/4; 被引[WOS]:0; IF:13.0/13.5评论推荐收藏
 [2] Wang, Xi.,Meng, Xiao.,Cui, Tongtong.,Hu, Qian.,Jin, Bowen.,...&Ye, Chunhong.(2024).Highly transparent cellulose-based phosphorescent materials with tunable afterglow colors and white emission.CARBOHYDRATE POLYMERS,341.浏览/下载:344/5; 被引[WOS]:1; IF:10.7/10.2评论推荐收藏
 [3] 金博闻. 基于互穿聚合物网络结构的可编程马兰戈尼微驱动器[D]. 上海. 上海科技大学. 2024-05-24.浏览/下载:0/0评论推荐收藏
 [4] Miao, Qing.,Wang, Xi.,Jin, Bowen.,Chen, Yang.,Zhou, Yi.,...&Ye, Chunhong.(2024).Stimuli-responsive circularly polarized luminescence with chiroptical amplification and inversion enabled by cholesterically assembled bio-materials.JOURNAL OF MATERIALS CHEMISTRY C,12(13),4861-4869.浏览/下载:292/2; 被引[WOS]:10; IF:5.7/6.0评论推荐收藏
 [5] Meng, Xiao.,Wang, Yue.,Bukharina, Daria.,Fei, Yunfan.,Wang, Jingtian.,...&Ye, Chunhong.(2024).Pressure-Induced Inversion of Chiroptical Properties in Cholesteric Assembled Cellulose Nanocrystals.ADVANCED OPTICAL MATERIALS,12(16).浏览/下载:352/1; 被引[WOS]:4; IF:8.0/9.0评论推荐收藏
 [6] Chen, Xinran.,Wang, Han.,Meng, Xiao.,He, Yisheng.,Jin, Bowen.,...&Ye, Chunhong.(2024).Soft MicromotorswithSwitchableMotionEnabledby3D-to-3D Shape Reconfiguration.CHEMISRTY OF MATERIALS,36(9),4174-4184.浏览/下载:311/0; 被引[WOS]:4; IF:7.2/8.4评论推荐收藏
 [7] Jin, Bowen,Cui, Tongtong,He, Yisheng,Zhang, Mingxin,Qi, Yanpeng,&Ye, Chunhong.(2024).3D Cellulose-Based Solar Evaporator with Tunable Porous Structures for High Steam Generation.ADVANCED SUSTAINABLE SYSTEMS,8(6).浏览/下载:357/2; 被引[WOS]:5; IF:6.5/6.6评论推荐收藏
 [8] Cui, Tongtong.,Liu, Zhen.,Gao, Lingling.,He, Yisheng.,Jin, Bowen.,...&Ye, Chunhong.(2022).Engineered Wood with Hierarchically Tunable Microchannels toward Efficient Solar Vapor Generation.LANGMUIR.浏览/下载:324/1; 被引[WOS]:15; IF:3.7/3.5评论推荐收藏