Functional Nanoporous Graphene Foams with Controlled Pore Sizes
Advanced Materials2012Vol. 24(32), pp. 4419–4423
Citations Over TimeTop 1% of 2012 papers
Abstract
A simple hydrophobic-affinity-derived assembly approach to pack graphene sheets into a nanoporous foam structure has been developed. Nanoporous graphene foams with the highest pore volume and large surface area are obtained. The pore diameter of the graphene foams can be finely adjusted from the mesopore to the macropore range by employing spherical templates with different sizes.
Related Papers
- → Relationship between the distribution of soil macropores and root elongation(1988)82 cited
- → Macropores in a compacted soil impact maize growth at the seedling stage: Effects of pore diameter and density(2022)35 cited
- → Numerical Study of the Influence of Horizontal Spatial Distribution of Macropores on Water Infiltration(2023)6 cited
- → Preferential water and solute transport through sandy soil containing artificial macropores(2013)18 cited
- Macropores in Vadose Zone of Well Vegetated Slopes(2012)