We aspire to provide the best quality products
High-Resolution TEM Images
Raman Spectrum (after transfer)
High-Resolution TEM Images
Electrical Properties
Sheet Resistance Uniformity
Ultra-Clean Transfer by Pressure Sensitive Adhesive Films
Application of Graphene on PET for Flexible Touch Screen
Optical Transmittance
Mechanical Properties of Graphene on PET
Transfer of Graphene onto Rigid Substrates by Hot Pressing
| Pristine | EDA doped | DETA doped | TETA doped | |
| Dirac Voltage(Vg) | 1.37±2.27 | -126.64±6.06 | -166.37±1.78 | -192.27±6.49 |
| Carrier Concentration(1013) | 0.01±0.016 | -0.912±0.043 | -1.198±0.013 | -1.384±0.047 |
| Mobility(h)[cm2/Vs] | 6219±1288 | |||
| Mobility(h)[cm2/Vs] | 3809±876 | 3711±913 | 3388±531 | 2817±475 |
| Sheet resistance(Ohm/sq) | 925±170 | 130±12 | 124±28 | 98±12 |
Reference
(1) S. Kim et. al. Ultra-Clean Patterned Transfer of Single-Layer Graphene by Recyclable Pressure Sensitive Adhesive Films. Nano Lett (accepted).
(2) S. Bae*, H. Kim* et al. Roll-to-roll production of 30 inch graphene films for transparent electrodes Nature Nanotech. 5, 574 (2010).
(3) J. Kang et al. Efficient Transfer of Large-Area Graphene Films onto Rigid Substrates by Hot Pressing. ACS Nano 6, 53060-5365 (2012)
(4) Y. Kim et al. Vapor-Phase Molecular Doping of Graphene for High-Performance Transparent Electrodes. ACS Nano, 8 , 868?874 (2014).
