Recent Advances in Stretchable and Transparent Electronic Materials
- 16 March 2016
- journal article
- review article
- Published by Wiley in Advanced Electronic Materials
- Vol. 2 (5), 1500407
- https://doi.org/10.1002/aelm.201500407
Abstract
No abstract availableKeywords
Funding Information
- United States Air Force Office of Scientific Research (FA9550-12-1-0074)
- National Science Foundation (ECCS-1028412, IIP-1414415)
- U.S. National Robotic Initiative (IIS 1207975)
- General Motor Corporation
- University of California Discovery Program
This publication has 101 references indexed in Scilit:
- A Healable, Semitransparent Silver Nanowire‐Polymer Composite ConductorAdvanced Materials, 2013
- Stretching‐Induced Growth of PEDOT‐Rich Cores: A New Mechanism for Strain‐Dependent Resistivity Change in PEDOT:PSS FilmsAdvanced Functional Materials, 2013
- Bioinspired Surfaces with Dynamic Topography for Active Control of BiofoulingAdvanced Materials, 2013
- Highly Deformable Nanostructured Elastomeric Electrodes With Improving Conductivity Upon Cyclical StretchingAdvanced Materials, 2011
- Stretchable Conductors with Ultrahigh Tensile Strain and Stable Metallic Conductance Enabled by Prestrained Polyelectrolyte NanoplatformsAdvanced Materials, 2011
- An Effective Lift‐Off Method for Patterning High‐Density Gold Interconnects on an Elastomeric SubstrateSmall, 2010
- Influence of carbon nanotubes and polypyrrole on the thermal, mechanical and electroactive shape-memory properties of polyurethane nanocompositesComposites Science and Technology, 2007
- Conducting polymer artificial musclesSynthetic Metals, 1996
- The “plastic” led: A flexible light-emitting device using a polyaniline transparent electrodeSynthetic Metals, 1993
- Chemical synthesis of highly electrically conductive polypyrroleSynthetic Metals, 1989