Water Activated Graphene Oxide Transfer Using Wax Printed Membranes for Fast Patterning of a Touch Sensitive Device

被引:26
作者
Baptista-Pires, Luis [1 ,2 ]
Mayorga-Martinez, Carmen C. [1 ,2 ]
Medina-Sanchez, Mariana [1 ,2 ]
Monton, Helena [1 ,2 ]
Merkoci, Arben [1 ,2 ,3 ]
机构
[1] CSIC, Catalan Inst Nanosci & Nanotechnol ICN2, Barcelona 08193, Spain
[2] Barcelona Inst Sci & Technol, Campus UAB, Barcelona 08193, Spain
[3] ICREA, Barcelona 08010, Spain
来源
ACS NANO | 2016年 / 10卷 / 01期
关键词
graphene oxide; wax printed membranes; patterning; transfer; touch sensor; FIELD-EFFECT TRANSISTORS; MICRO-SUPERCAPACITORS; GRAPHITE OXIDE; HIGH-POWER; SEMICONDUCTOR NANOSTRUCTURES; TRANSPARENT ELECTRODES; ULTRATHIN FILMS; REDUCTION; TEMPERATURE; EFFICIENCY;
D O I
10.1021/acsnano.5b05963
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
We demonstrate a graphene oxide printing technology using wax printed membranes for the fast patterning and water activation transfer using pressure based mechanisms. The wax printed membranes have 50 pm resolution, longtime stability and infinite shaping capability. The use of these membranes complemented with the vacuum filtration of graphene oxide provides the control over the thickness; Our demonstration provides a solvent free methodology for printing graphene oxide devices in all shapes and all substrates using the roll-to-roll automatized mechanism present in the wax printing machine. Graphene oxide was transferred over a wide variety of substrates as textile Or PET in between others. Finally, we developed a touch switch sensing device integrated in a LED electronic circuit.
引用
收藏
页码:853 / 860
页数:8
相关论文
共 48 条
[31]   A roadmap for graphene [J].
Novoselov, K. S. ;
Fal'ko, V. I. ;
Colombo, L. ;
Gellert, P. R. ;
Schwab, M. G. ;
Kim, K. .
NATURE, 2012, 490 (7419) :192-200
[32]   Patterned Graphene Electrodes from Solution-Processed Graphite Oxide Films for Organic Field-Effect Transistors [J].
Pang, Shuping ;
Tsao, Hoi Nok ;
Feng, Xinliang ;
Muellen, Klaus .
ADVANCED MATERIALS, 2009, 21 (34) :3488-+
[33]   Stability of Hydrogen-Terminated Surfaces of Silicon Nanowires in Aqueous Solutions [J].
Peng, Chunzeng ;
Gao, Jing ;
Wang, Suidong ;
Zhang, Xiaohong ;
Zhang, Xinping ;
Sun, Xuhui .
JOURNAL OF PHYSICAL CHEMISTRY C, 2011, 115 (10) :3866-3871
[34]   Direct electrochemical reduction of graphene oxide on ionic liquid doped screen-printed electrode and its electrochemical biosensing application [J].
Ping, Jianfeng ;
Wang, Yixian ;
Fan, Kai ;
Wu, Jian ;
Ying, Yibin .
BIOSENSORS & BIOELECTRONICS, 2011, 28 (01) :204-209
[35]   Efficient Reduction of Graphite Oxide by Sodium Borohydride and Its Effect on Electrical Conductance [J].
Shin, Hyeon-Jin ;
Kim, Ki Kang ;
Benayad, Anass ;
Yoon, Seon-Mi ;
Park, Hyeon Ki ;
Jung, In-Sun ;
Jin, Mei Hua ;
Jeong, Hae-Kyung ;
Kim, Jong Min ;
Choi, Jae-Young ;
Lee, Young Hee .
ADVANCED FUNCTIONAL MATERIALS, 2009, 19 (12) :1987-1992
[36]   Highly conductive reduced graphene oxide produced via pressure-assisted reduction at mild temperature for flexible and transparent electrodes [J].
Shin, Kyoung-Hwan ;
Jang, Yongjin ;
Kim, Byeong-Su ;
Jang, Jyongsik ;
Kim, Sung Hyun .
CHEMICAL COMMUNICATIONS, 2013, 49 (43) :4887-4889
[37]   Controlled insulator-to-metal transformation in printable polymer composites with nanometal clusters [J].
Sivaramakrishnan, Sankaran ;
Chia, Perq-Jon ;
Yeo, Yee-Chia ;
Chua, Lay-Lay ;
Ho, Peter K. -H. .
NATURE MATERIALS, 2007, 6 (02) :149-155
[38]  
Suganuma K., 2014, Introduction to Printed Electronics, V1st, P124
[39]   High Mobility, Printable, and Solution-Processed Graphene Electronics [J].
Wang, Shuai ;
Ang, Priscilla Kailian ;
Wang, Ziqian ;
Tang, Ai Ling Lena ;
Thong, John T. L. ;
Loh, Kian Ping .
NANO LETTERS, 2010, 10 (01) :92-98
[40]   A spectrally tunable all-graphene-based flexible field-effect light-emitting device [J].
Wang, Xiaomu ;
Tian, He ;
Mohammad, Mohammad Ali ;
Li, Cheng ;
Wu, Can ;
Yang, Yi ;
Ren, Tian-Ling .
NATURE COMMUNICATIONS, 2015, 6
12345