Aqueous graphene oxide-dispersed carbon nanotubes as inks for the scalable production of all-carbon transparent conductive films

Abstract: Aqueous graphene oxide-dispersed multi-walled carbon nanotubes were used as inks for the simple, fast, and industrially scalable fabrication of hybrid transparent conductive films by rod coating.

“…which is a rapid rising star on the horizon of materials science . But it was noticed that current studies are primarily on graphene and its derivative aim at AF device applications . Less effort has been concentrated on the reasonable design and exact layout of their micro/nanostructures.…”

Flourishing Bioinspired Antifogging Materials with Superwettability: Progresses and Challenges

“…which is a rapid rising star on the horizon of materials science . But it was noticed that current studies are primarily on graphene and its derivative aim at AF device applications . Less effort has been concentrated on the reasonable design and exact layout of their micro/nanostructures.…”

Flourishing Bioinspired Antifogging Materials with Superwettability: Progresses and Challenges

“…Carbon materials as the additives in conductive inks have been widely applied in the eld of printed electronics, especially the graphene and carbon nanotubes. [1][2][3][4][5] Because of their exceptional chemical, mechanical, electrical, and optical properties, they can greatly improve the performance of conductive inks. [6][7][8][9][10] Graphite is a laminar structure with several tens of microns long.…”

Highly conductive carbon-based aqueous inks toward electroluminescent devices, printed capacitive sensors and flexible wearable electronics

“…Therefore, it is considered as an ideal transparent conductive lm (TCF), which is widely used in applications such as photovoltaic devices, at panel displays, organic light emitting diodes, touch screens, and transparent heaters etc. 4,5 Although dominant TCFs used nowadays, such as indium-doped tin oxide (ITO), have exceptional optoelectronic properties, they suffer from considerable drawbacks, including increased material costs, costs associated with vacuum deposition, and brittleness, all of which are motivating the search for other cost-effective alternatives. 6,7 Undoped graphene has a low charge carrier density, and thus a high sheet resistance, as a result of its vanishing density of states at the Dirac point.…”

Silver-decorated reduced graphene oxides as novel building blocks for transparent conductive films