A scalable polymer-free method for transferring graphene onto arbitrary surfaces
作者: Xuewei Zhang , Chen Xu , Zhenxing Zou , Zehao Wu , Shaoqian Yin
DOI: 10.1016/J.CARBON.2020.01.111
关键词: Flexible electronics 、 Polymer 、 Scalability 、 Materials science 、 Nanotechnology 、 Epitaxy 、 Polymer free 、 Graphene 、 Electrode
摘要: Abstract An efficient and reliable transfer for graphene onto the substrates of interests acts as crucial bridge between synthesis applications. The main reason that this issue has not been fully addressed is use a polymer medium to protect one-atom-thick material during process. Here we demonstrate general scalable method chemical-vapor-deposited arbitrary surfaces without any polymers, which yields macroscopically microscopically clean, continuous uniform samples wide variety substrates, well layer-by-layer epitaxial structures. Moreover, transferred exhibits an overall 100% enhancement in electrical conductivity compared with conventional method, so various high-performance flexible transparent electrodes can be demonstrated. We believe new technique will offer opportunities industrialization next generations electronics other graphene-based disruptive technologies.
sci-hub.st 参考文章(41)
Xuelei Liang, Brent A. Sperling, Irene Calizo, Guangjun Cheng, Christina Ann Hacker, Qin Zhang, Yaw Obeng, Kai Yan, Hailin Peng, Qiliang Li, Xiaoxiao Zhu, Hui Yuan, Angela R. Hight Walker, Zhongfan Liu, Lian-mao Peng, Curt A. Richter, Toward Clean and Crackless Transfer of Graphene ACS Nano. ,vol. 5, pp. 9144- 9153 ,(2011) , 10.1021/NN203377T
Jie Song, Fong-Yu Kam, Rui-Qi Png, Wei-Ling Seah, Jing-Mei Zhuo, Geok-Kieng Lim, Peter KH Ho, Lay-Lay Chua, None, A general method for transferring graphene onto soft surfaces Nature Nanotechnology. ,vol. 8, pp. 356- 362 ,(2013) , 10.1038/NNANO.2013.63
Mingyuan Huang, Tod A. Pascal, Hyungjun Kim, William A. Goddard, Julia R. Greer, Electronic-Mechanical Coupling in Graphene from in situ Nanoindentation Experiments and Multiscale Atomistic Simulations Nano Letters. ,vol. 11, pp. 1241- 1246 ,(2011) , 10.1021/NL104227T
Tao Jiang, Rui Huang, Yong Zhu, Interfacial Sliding and Buckling of Monolayer Graphene on a Stretchable Substrate Advanced Functional Materials. ,vol. 24, pp. 396- 402 ,(2014) , 10.1002/ADFM.201301999
YUJIE REN, CHAOFU ZHU, WEIWEI CAI, HUIFENG LI, YUFENG HAO, YAPING WU, SHANSHAN CHEN, QINGZHI WU, RICHARD D. PINER, RODNEY S. RUOFF, AN IMPROVED METHOD FOR TRANSFERRING GRAPHENE GROWN BY CHEMICAL VAPOR DEPOSITION NANO. ,vol. 07, pp. 1150001- ,(2012) , 10.1142/S1793292011500019
A. K. Geim, K. S. Novoselov, The rise of graphene Nature Materials. ,vol. 6, pp. 183- 191 ,(2007) , 10.1038/NMAT1849
Sang Jin Kim, Teajun Choi, Bora Lee, Sunwoo Lee, Kyoungjun Choi, Jong Bo Park, Je Min Yoo, Yong Seok Choi, Jaechul Ryu, Philip Kim, James Hone, Byung Hee Hong, Ultraclean patterned transfer of single-layer graphene by recyclable pressure sensitive adhesive films. Nano Letters. ,vol. 15, pp. 3236- 3240 ,(2015) , 10.1021/ACS.NANOLETT.5B00440
A. Pirkle, J. Chan, A. Venugopal, D. Hinojos, C. W. Magnuson, S. McDonnell, L. Colombo, E. M. Vogel, R. S. Ruoff, R. M. Wallace, The effect of chemical residues on the physical and electrical properties of chemical vapor deposited graphene transferred to SiO2 Applied Physics Letters. ,vol. 99, pp. 122108- ,(2011) , 10.1063/1.3643444
Tina Harifi, Majid Montazer, Past, present and future prospects of cotton cross-linking: New insight into nano particles Carbohydrate Polymers. ,vol. 88, pp. 1125- 1140 ,(2012) , 10.1016/J.CARBPOL.2012.02.017
L.M. Malard, M.A. Pimenta, G. Dresselhaus, M.S. Dresselhaus, Raman spectroscopy in graphene Physics Reports. ,vol. 473, pp. 51- 87 ,(2009) , 10.1016/J.PHYSREP.2009.02.003