Mingyang Yang
10 Papers
Mingyang Yang is an academic researcher. The author has contributed to research in topics: Diamond & Graphene. The author has an hindex of 1, co-authored 5 publications.
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Papers
Ultralow Interfacial Thermal Resistance of Graphene Thermal Interface Materials with Surface Metal Liquefaction
Wen Dai,Xing-Jie Ren,Qingwei Yan,Shengding Wang,Mingyang Yang,Le Lv,Junfeng Ying,Lu Chen,Peidi Tao,Liwen Sun,Chen Xue,Jinhong Yu,Chen Song,Kazuhito Nishimura,Nan Jiang,Cheng-Te Lin +15 more
TL;DR: Wang et al. as discussed by the authors combined mechanical orientation and surface modification strategy to construct a three-tiered TIM composed of mainly vertically aligned graphene in the middle and micrometer-thick liquid metal as a cap layer on upper and lower surfaces.
High detectivity solar blind photodetector based on mechanical exfoliated hexagonal boron nitride films
Mengting Qiu,Zhenglin Jia,Mingyang Yang,Kazuhito Nishimura,Cheng-Te Lin,Nan Jiang,Qilong Yuan +6 more
TL;DR: In this article , a metal-semiconductor-metal structural two-dimensional hexagonal boron nitride (h-BN) photodetector was fabricated by using mechanically exfoliated h-BN flakes.
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A single-crystalline diamond X-ray detector based on direct sp3-to-sp2 conversed graphene electrodes
Qilong Yuan,Linyue Liu,Danyang Dai,Yuhong Zhou,Yang Liu,Mingyang Yang,Mengting Qiu,Zhenglin Jia,He Li,Kazuhito Nishimura,Geng Tian,Kuan W. A. Chee,Shiyu Du,Cheng-Te Lin,Nan Jiang,Xiaoping Ouyang +15 more
TL;DR: In this paper , a direct sp3-to-sp2 conversion method was proposed to fabricate graphene layers on single crystal diamond by thermal treatment with Ni film catalyst, and an all-carbon sandwich structural graphene-diamond-graphene (GDG) detector was fabricated.
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Numerical study of thermal shock on infrared windows and their composites with diamond coatings under harsh conditions
Guojian Yang,Z. Peng,Yuezhong Wang,P.N. Sun,Peng-Peng Shang,Weiyan Lian,Xiao Yang,Huasong Liu,Guo-Tao Yang,Mingyang Yang,Qingwei Yan,Cheng-Te Lin,Zhan-Peng Lv,Nan Jiang +13 more
TL;DR: In this paper , a finite element simulation software (ANSYS) was used to simulate the thermal shock behavior of the infrared materials and their composite with diamond coatings (0.04 mm in thickness).
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Achieving ultrahigh hole mobility in hydrogen-terminated diamond via boron nitride modifications
Mingyang Yang,Youwang Hu,Junfeng Cui,Yingying Yang,Mengting Qiu,Yunxiang Lu,Yi Shen,Zhenglin Jia,Kazuhito Nishimura,Chun Tang,Nan Jiang,Qilong Yuan +11 more
TL;DR: Researchers achieved ultrahigh hole mobility (1100 cm2 V−1 s−1) in hydrogen-terminated diamond by modifying its surface with boron nitride clusters, significantly improving its high-temperature tolerance and thermal stability for radio-frequency electronic devices.
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