Junfeng Ying
Chinese Academy of Sciences
14 Papers
1 Citations
Junfeng Ying is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Graphene & Thermal conductivity. The author has an hindex of 3, co-authored 5 publications.
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Papers
Ultrahigh-Aspect-Ratio Boron Nitride Nanosheets Leading to Superhigh In-Plane Thermal Conductivity of Foldable Heat Spreader.
Qingwei Yan,Qingwei Yan,Wen Dai,Jingyao Gao,Xue Tan,Le Lv,Junfeng Ying,Xiaoxin Lu,Jibao Lu,Yagang Yao,Qiuping Wei,Rong Sun,Jinhong Yu,Nan Jiang,Ding Chen,Ching-Ping Wong,Rong Xiang,Shigeo Maruyama,Cheng-Te Lin +18 more
TL;DR: The rapid development of integrated circuits and electronic devices creates a strong demand for highly thermally conductive yet electrically insulating composites to efficiently solve "hot spot" problems as discussed by the authors.
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Multiscale Structural Modulation of Anisotropic Graphene Framework for Polymer Composites Achieving Highly Efficient Thermal Energy Management.
Wen Dai,Le Lv,Tengfei Ma,Xiangze Wang,Junfeng Ying,Qingwei Yan,Xue Tan,Jingyao Gao,Chen Xue,Jinhong Yu,Yagang Yao,Qiuping Wei,Rong Sun,Yan Wang,Te-Huan Liu,Tao Chen,Rong Xiang,Rong Xiang,Nan Jiang,Qunji Xue,Ching-Ping Wong,Shigeo Maruyama,Shigeo Maruyama,Cheng-Te Lin +23 more
TL;DR: In this article, a multiscale structural modulation strategy for obtaining highly ordered structure of a self-assembled graphene framework and simultaneously reducing the junction thermal resistance is demonstrated, and the resultant anisotropic framework contributes to the polymer composites with a record-high thermal conductivity of 56.8-62.4 W m-1 K-1 at the graphene loading of ≈13.3 vol.
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Tailoring Highly Ordered Graphene Framework in Epoxy for High-Performance Polymer-Based Heat Dissipation Plates.
Junfeng Ying,Xue Tan,Le Lv,Xiangze Wang,Jingyao Gao,Qingwei Yan,Ma Hongbing,Kazhihito Nishimura,He Li,Jinhong Yu,Te-Huan Liu,Rong Xiang,Rong Sun,Nan Jiang,Ching-Ping Wong,Shigeo Maruyama,Cheng-Te Lin,Wen Dai +17 more
TL;DR: In this paper, an interconnected and highly ordered graphene framework (HOGF) composed of high-quality and horizontally aligned graphene sheets was developed by a porous film-templated assembly strategy, followed by a stress-induced orientation process and graphitization post-treatment.
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Enhanced Electromagnetic Shielding and Thermal Conductive Properties of Polyolefin Composites with a Ti3C2Tx MXene/Graphene Framework Connected by a Hydrogen-Bonded Interface.
Xue Tan,Te-Huan Liu,Wenjian Zhou,Qilong Yuan,Junfeng Ying,Qingwei Yan,Le Lv,Lu Chen,Xiangze Wang,Shiyu Du,Yan Wang,Rong Sun,Kazuhito Nishimura,Jinhong Yu,Nan Jiang,Wen Dai,Cheng-Te Lin +16 more
TL;DR: In this article, a fold fabrication strategy was proposed to prepare polyethylene (PE) composites by incorporation of a well-aligned, seamless graphene framework premodified with MXene nanosheets into the matrix.
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Lightweight thermal interface materials based on hierarchically structured graphene paper with superior through-plane thermal conductivity
Jingyao Gao,Qingwei Yan,Qingwei Yan,Le Lv,Xue Tan,Junfeng Ying,Ke Yang,Jinhong Yu,Shiyu Du,Qiuping Wei,Rong Xiang,Yagang Yao,Xiaoliang Zeng,Rong Sun,Ching-Ping Wong,Nan Jiang,Cheng-Te Lin,Wen Dai +17 more
TL;DR: In this paper, a hierarchical structure composed of loosely stacked horizontal layers formed by large graphene sheets, intercalated by a random arrangement of small graphene sheets was proposed to solve the interfacial heat transfer issue.
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