Graphene Foam Developed with a Novel Two‐Step Technique for Low and High Strains and Pressure‐Sensing Applications
Top Cited Papers
- 26 January 2015
- Vol. 11 (20), 2380-2385
- https://doi.org/10.1002/smll.201403532
Abstract
Freestanding, mechanically stable, and highly electrically conductive graphene foam (GF) is formed with a two-step facile, adaptable, and scalable technique. This work also demonstrates the formation of graphene foam with tunable densities and its use as strain/pressure sensor for both high and low strains and pressures.This publication has 51 references indexed in Scilit:
- Synthesis of a carbon nanofiber/carbon foam composite from coal liquefaction residue for the separation of oil and waterCarbon, 2013
- The effect of the ultrasonication pre-treatment of graphene oxide (GO) on the mechanical properties of GO/polyvinyl alcohol compositesCarbon, 2013
- Multifunctional, Ultra‐Flyweight, Synergistically Assembled Carbon AerogelsAdvanced Materials, 2013
- Strong, Conductive, Lightweight, Neat Graphene Aerogel Fibers with Aligned PoresACS Nano, 2012
- Within touch of artificial skinNature Materials, 2010
- Carbon Nanotube SpongesAdvanced Materials, 2010
- Graphene: Status and ProspectsScience, 2009
- Hydrothermal Dehydration for the “Green” Reduction of Exfoliated Graphene Oxide to Graphene and Demonstration of Tunable Optical Limiting PropertiesChemistry of Materials, 2009
- The rise of grapheneNature Materials, 2007
- Flexible polyurethane foam. I. Thermal decomposition of a polyether-based, water-blown commercial type of flexible polyurethane foamJournal of Applied Polymer Science, 1997