M
Mengqi Cui
Researcher at Nanyang Technological University
Publications - 37
Citations - 3407
Mengqi Cui is an academic researcher from Nanyang Technological University. The author has contributed to research in topics: Electrochromism & Chemistry. The author has an hindex of 17, co-authored 22 publications receiving 2698 citations.
Papers
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Journal ArticleDOI
Highly Stretchable Piezoresistive Graphene–Nanocellulose Nanopaper for Strain Sensors
Chaoyi Yan,Jiangxin Wang,Wenbin Kang,Mengqi Cui,Xu Wang,Ce Yao Foo,Kenji Jianzhi Chee,Pooi See Lee +7 more
TL;DR: The stretchable graphene nanopaper is demonstrated for efficient human-motion detection applications and is fabricated for strain-sensor applications.
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Stretchable and Wearable Electrochromic Devices
Chaoyi Yan,Wenbin Kang,Jiangxin Wang,Mengqi Cui,Xu Wang,Ce Yao Foo,Kenji Jianzhi Chee,Pooi See Lee +7 more
TL;DR: The electrochromic devices were successfully implanted onto textile substrates for potential wearable applications and hold the promise for next-generation electronics such as stretchable, wearable, and implantable display applications.
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Highly Stable Transparent Conductive Silver Grid/PEDOT:PSS Electrodes for Integrated Bifunctional Flexible Electrochromic Supercapacitors
TL;DR: In this article, a silver grid/PEDOT:PSS hybrid transparent film with high conductivity and excellent stability is successfully fabricated for flexible electronics and optoelectronic devices.
Journal ArticleDOI
Electrochromo-supercapacitor based on direct growth of NiO nanoparticles
TL;DR: In this paper, uniform NiO nanoparticles on different substrates were successfully synthesized by a simple and low-cost solvothermal method and achieved high capacitance (1386 F g−1 at 1 ǫg−1) and excellent rate capability.
Journal ArticleDOI
Ultra-large optical modulation of electrochromic porous WO3 film and the local monitoring of redox activity
Guofa Cai,Mengqi Cui,Vipin Kumar,Peter Darmawan,Jiangxin Wang,Xu Wang,Alice Lee-Sie Eh,Kai Qian,Pooi See Lee +8 more
TL;DR: Porous WO3 films with ultra-high transmittance modulation were successfully fabricated on different substrates by a novel electrochemical deposited method.