Highly Transparent Conducting Nanopaper for Solid State Foldable Electrochromic Devices
出版年份 2016 全文链接
标题
Highly Transparent Conducting Nanopaper for Solid State Foldable Electrochromic Devices
作者
关键词
-
出版物
Small
Volume 12, Issue 46, Pages 6370-6377
出版商
Wiley
发表日期
2016-10-03
DOI
10.1002/smll.201600979
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Foldable Electronics: Foldable Electrochromics Enabled by Nanopaper Transfer Method (Adv. Funct. Mater. 27/2015)
- (2015) Wenbin Kang et al. ADVANCED FUNCTIONAL MATERIALS
- Glass and Plastics Platforms for Foldable Electronics and Displays
- (2015) Moon Jong Han et al. ADVANCED MATERIALS
- Nanomaterial-Enabled Stretchable Conductors: Strategies, Materials and Devices
- (2015) Shanshan Yao et al. ADVANCED MATERIALS
- Solution Processable, Electrochromic Ion Gels for Sub-1 V, Flexible Displays on Plastic
- (2015) Hong Chul Moon et al. CHEMISTRY OF MATERIALS
- Ultrahigh electrical conductivity in solution-sheared polymeric transparent films
- (2015) Brian J. Worfolk et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- A chameleon-inspired stretchable electronic skin with interactive colour changing controlled by tactile sensing
- (2015) Ho-Hsiu Chou et al. Nature Communications
- Silver Nanowire Percolation Network Soldered with Graphene Oxide at Room Temperature and Its Application for Fully Stretchable Polymer Light-Emitting Diodes
- (2014) Jiajie Liang et al. ACS Nano
- An Electrolyte-Free Flexible Electrochromic Device Using Electrostatically Strong Graphene Quantum Dot-Viologen Nanocomposites
- (2014) Eunhee Hwang et al. ADVANCED MATERIALS
- Thickness-self-controlled synthesis of porous transparent polyaniline-reduced graphene oxide composites towards advanced bifacial dye-sensitized solar cells
- (2014) Yu-Sheng Wang et al. JOURNAL OF POWER SOURCES
- Graphene for displays that bend
- (2014) Jong-Hyun Ahn et al. Nature Nanotechnology
- Green synthesis of nanobelt-membrane hybrid structured vanadium oxide with high electrochromic contrast
- (2014) Wenbin Kang et al. Journal of Materials Chemistry C
- Highly Transparent and Flexible Nanopaper Transistors
- (2013) Jia Huang et al. ACS Nano
- Stretchable and Wearable Electrochromic Devices
- (2013) Chaoyi Yan et al. ACS Nano
- Transparent Nanopaper-Based Flexible Organic Thin-Film Transistor Array
- (2013) Yoshihide Fujisaki et al. ADVANCED FUNCTIONAL MATERIALS
- Highly Robust Indium-Free Transparent Conductive Electrodes Based on Composites of Silver Nanowires and Conductive Metal Oxides
- (2013) Kirill Zilberberg et al. ADVANCED FUNCTIONAL MATERIALS
- An Intrinsically Stretchable Nanowire Photodetector with a Fully Embedded Structure
- (2013) Chaoyi Yan et al. ADVANCED MATERIALS
- Biodegradable transparent substrates for flexible organic-light-emitting diodes
- (2013) Hongli Zhu et al. Energy & Environmental Science
- High-Performance, Transparent, and Stretchable Electrodes Using Graphene–Metal Nanowire Hybrid Structures
- (2013) Mi-Sun Lee et al. NANO LETTERS
- A transparent electrode based on a metal nanotrough network
- (2013) Hui Wu et al. Nature Nanotechnology
- Efficient Welding of Silver Nanowire Networks without Post-Processing
- (2013) Jaemin Lee et al. Small
- Double-wall carbon nanotube transparent conductive films with excellent performance
- (2013) Peng-Xiang Hou et al. Journal of Materials Chemistry A
- An Electrochromic Ionic Liquid: Design, Characterization, and Performance in a Solid-State Platform
- (2012) Andrew Kavanagh et al. ACS Applied Materials & Interfaces
- Graphene–Ferroelectric Hybrid Structure for Flexible Transparent Electrodes
- (2012) Guang-Xin Ni et al. ACS Nano
- Highly Conductive and Stretchable Silver Nanowire Conductors
- (2012) Feng Xu et al. ADVANCED MATERIALS
- Elastic and viscous properties of Silly Putty
- (2012) Rod Cross AMERICAN JOURNAL OF PHYSICS
- Transparent and conductive paper from nanocellulose fibers
- (2012) Liangbing Hu et al. Energy & Environmental Science
- Transparent Conducting Silver Nanowire Networks
- (2012) Jorik van de Groep et al. NANO LETTERS
- Solution-processed flexible transparent conductors composed of silver nanowire networks embedded in indium tin oxide nanoparticle matrices
- (2012) Choong-Heui Chung et al. Nano Research
- Very long Ag nanowire synthesis and its application in a highly transparent, conductive and flexible metal electrode touch panel
- (2012) Jinhwan Lee et al. Nanoscale
- Past achievements and future challenges in the development of optically transparent electrodes
- (2012) Klaus Ellmer Nature Photonics
- Highly Conductive and Transparent PEDOT:PSS Films with a Fluorosurfactant for Stretchable and Flexible Transparent Electrodes
- (2011) Michael Vosgueritchian et al. ADVANCED FUNCTIONAL MATERIALS
- Emerging Transparent Electrodes Based on Thin Films of Carbon Nanotubes, Graphene, and Metallic Nanostructures
- (2011) David S. Hecht et al. ADVANCED MATERIALS
- Nanocelluloses: A New Family of Nature-Based Materials
- (2011) Dieter Klemm et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Size Effects and the Problem with Percolation in Nanostructured Transparent Conductors
- (2010) Sukanta De et al. ACS Nano
- Scalable Coating and Properties of Transparent, Flexible, Silver Nanowire Electrodes
- (2010) Liangbing Hu et al. ACS Nano
- Spontaneous Formation of Periodic Nanostructures by Localized Dynamic Wrinkling
- (2010) Se Hyun Ahn et al. NANO LETTERS
- Roll-to-roll production of 30-inch graphene films for transparent electrodes
- (2010) Sukang Bae et al. Nature Nanotechnology
- Materials and Mechanics for Stretchable Electronics
- (2010) J. A. Rogers et al. SCIENCE
- Silver Nanowire Networks as Flexible, Transparent, Conducting Films: Extremely High DC to Optical Conductivity Ratios
- (2009) Sukanta De et al. ACS Nano
- Optically Transparent Nanofiber Paper
- (2009) Masaya Nogi et al. ADVANCED MATERIALS
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started