位置:成果数据库 > 期刊 > 期刊详情页
Bio-inspired design of multiscale structures for function integration
  • ISSN号:1748-0132
  • 期刊名称:Nano Today
  • 时间:2011.4.4
  • 页码:155-175
  • 相关项目:超疏水电极的仿生构筑与电化学性能研究
作者: Liu, Kesong|Jiang, Lei|
同期刊论文项目
超疏水电极的仿生构筑与电化学性能研究
期刊论文 20 会议论文 1
同项目期刊论文
Superhydrophobic gecko feet with high adhesive forces towards water and their bio-inspired materials
Bio-Inspired Self-Cleaning Surfaces
Bio-inspired special wetting surfaces via self-assembly
Nanoparticles assembly-induced special wettability for bio-inspired materials
Bioinspired Multifunctional Foam with Self-Cleaning and Oil/Water Separation
Bio-inspired superoleophobic and smart materials: Design, fabrication, and application
Fusion of nacre, mussel, and lotus leaf: bio-inspired graphene composite paper with multifunctional
Facile creation of bio-inspired superhydrophobic Ce-based metallic glass surfaces
Metallic surfaces with special wettability
Multifunctional Integration: From Biological to Bio-Inspired Materials
花生叶表面的高黏附超疏水特性研究及其仿生制备
Superhydrophobicity-Mediated Electrochemical Reaction Along the Solid–Liquid–Gas Triphas
Peanut Leaf Inspired Multifunctional Surfaces
Architecture designed ZnO hollow microspheres with wide-range visible-light photoresponses
Adhesive Materials Inspired by Gecko and Mussel
Facile and Large-Scale Fabrication of a Cactus-Inspired Continuous Fog Collector
Bio-inspired multifunctional metallic foams through the fusion of different biological solutions
Robust superhydrophobicity of hierarchical ZnO hollow microspheres fabricated by two-step self-assem
Robust superhydrophobicity of hierarchical ZnO hollow microspheres fabricated by two-step self-assembly