Go to content
UR Home

A Phytic Acid Induced Super-Amphiphilic Multifunctional 3D Graphene-Based Foam

Song, Xinhong ; Chen, Yiying ; Rong, Mingcong ; Xie, Zhaoxiong ; Zhao, Tingting ; Wang, Yiru ; Chen, Xi ; Wolfbeis, Otto S.



Abstract

Surfaces with super-amphiphilicity have attracted tremendous interest for fundamental and applied research owing to their special affinity to both oil and water. It is generally believed that 3D graphenes are monoliths with strongly hydrophobic surfaces. Herein, we demonstrate the preparation of a 3D super-amphiphilic (that is, highly hydrophilic and oleophilic) graphene-based assembly in a ...

plus


Owner only: item control page
  1. Homepage UR

University Library

Publication Server

Contact:

Publishing: oa@ur.de
0941 943 -4239 or -69394

Dissertations: dissertationen@ur.de
0941 943 -3904

Research data: datahub@ur.de
0941 943 -5707

Contact persons