Remote epitaxy through graphene enables two-dimensional material-based layer transfer

被引:0
作者
Yunjo Kim
Samuel S. Cruz
Kyusang Lee
Babatunde O. Alawode
Chanyeol Choi
Yi Song
Jared M. Johnson
Christopher Heidelberger
Wei Kong
Shinhyun Choi
Kuan Qiao
Ibraheem Almansouri
Eugene A. Fitzgerald
Jing Kong
Alexie M. Kolpak
Jinwoo Hwang
Jeehwan Kim
机构
[1] Massachusetts Institute of Technology,Department of Mechanical Engineering
[2] Massachusetts Institute of Technology,Department of Electrical Engineering and Computer Science
[3] Ohio State University,Department of Materials Science and Engineering
[4] Massachusetts Institute of Technology,Department of Materials Science and Engineering
[5] Masdar Institute of Science and Technology,Department of Electrical Engineering and Computer Science
[6] Research Laboratory of Electronics,undefined
[7] Massachusetts Institute of Technology,undefined
来源
Nature | 2017年 / 544卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Conventional epitaxy is of limited application, but by placing a monolayer of graphene between the substrate and the so-called epilayer grown on top, its scope can be substantially extended.
引用
收藏
页码:340 / 343
页数:3
相关论文
共 50 条
[21]   A complementary two-dimensional material-based one instruction set computer [J].
Ghosh, Subir ;
Zheng, Yikai ;
Rafiq, Musaib ;
Ravichandran, Harikrishnan ;
Sun, Yongwen ;
Chen, Chen ;
Goswami, Mrinmoy ;
Sakib, Najam U. ;
Sadaf, Muhtasim Ul Karim ;
Pannone, Andrew ;
Ray, Samriddha ;
Redwing, Joan M. ;
Yang, Yang ;
Sahay, Shubham ;
Das, Saptarshi .
NATURE, 2025, 642 (8067) :327-335
[22]   Two-Dimensional Microporous Material-based Mixed Matrix Membranes for Gas Separation [J].
Huang, Menghui ;
Wang, Zhenggong ;
Jin, Jian .
CHEMISTRY-AN ASIAN JOURNAL, 2020, 15 (15) :2303-2315
[23]   On the electrohydrodynamic jet printing of two-dimensional material-based inks for printed electronics [J].
Rijo, P. C. ;
Vega, E. J. ;
Galindo-Rosales, F. J. ;
Montanero, J. M. .
PHYSICS OF FLUIDS, 2024, 36 (11)
[24]   Strategies for enhancing capacity and rate performance of two-dimensional material-based supercapacitors [J].
Liu, Huayan ;
Chen, Yifei ;
Yang, Mengzhao ;
Gu, Jiajun .
ACTA PHYSICO-CHIMICA SINICA, 2025, 41 (06)
[25]   Recent development in two-dimensional material-based membranes for redox flow battery [J].
Yuan, Jiashu ;
Xia, Yonggao ;
Chen, Xiaoping ;
Zhao, Yicheng ;
Li, Yongdan .
CURRENT OPINION IN CHEMICAL ENGINEERING, 2022, 38
[26]   Mechanical properties of two-dimensional material-based thin films: a comprehensive review [J].
Kamal, Abdallah ;
Li, Baosong ;
Solayman, Abdullah ;
Luo, Shaohong ;
Kinloch, Ian ;
Zheng, Lianxi ;
Liao, Kin .
NANOSCALE HORIZONS, 2025, 10 (03) :512-536
[27]   Smart two-dimensional material-based time modulated array for RFID applications [J].
Aldrigo, Martino ;
Masotti, Diego ;
Dragoman, Mircea .
IET MICROWAVES ANTENNAS & PROPAGATION, 2017, 11 (15) :2267-2272
[28]   On-chip two-dimensional material-based waveguide-integrated photodetectors [J].
He, Xiao ;
Wang, Yilun ;
Peng, Zhuiri ;
Li, Zheng ;
Yu, Xiangxiang ;
Xu, Langlang ;
Huang, Xinyu ;
Meng, Xiaohan ;
Shi, Wenhao ;
Gao, Xiaoyan ;
Zhao, Jihao ;
Xu, Jianbin ;
Tong, Lei ;
Zhang, Xinliang ;
Miao, Xiangshui ;
Ye, Lei .
JOURNAL OF MATERIALS CHEMISTRY C, 2024, 12 (07) :2279-2316
[29]   Modeling Two-Dimensional Material-Based Photodetectors with Finite-Difference Methods [J].
Islam, Raonaqul ;
Simsek, Ergun .
2024 INTERNATIONAL APPLIED COMPUTATIONAL ELECTROMAGNETICS SOCIETY SYMPOSIUM, ACES 2024, 2024,
[30]   Two-Dimensional Material-Based Electrochemical Sensors/Biosensors for Food Safety and Biomolecular Detection [J].
Li, Tao ;
Shang, Dawei ;
Gao, Shouwu ;
Wang, Bo ;
Kong, Hao ;
Yang, Guozheng ;
Shu, Weidong ;
Xu, Peilong ;
Wei, Gang .
BIOSENSORS-BASEL, 2022, 12 (05)
12345