H
Hanqing Jiang
Researcher at Arizona State University
Publications - 175
Citations - 12022
Hanqing Jiang is an academic researcher from Arizona State University. The author has contributed to research in topics: Carbon nanotube & Stretchable electronics. The author has an hindex of 53, co-authored 171 publications receiving 10327 citations. Previous affiliations of Hanqing Jiang include Jinan University & University of Connecticut.
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Controlled buckling of semiconductor nanoribbons for stretchable electronics
TL;DR: It is shown that precisely engineered buckling geometries can be created in nanoribbons of GaAs and Si in this manner and that these configurations can be described quantitatively with analytical models of the mechanics.
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Finite deformation mechanics in buckled thin films on compliant supports.
TL;DR: In this paper, the authors present detailed experimental and theoretical studies of the mechanics of thin buckled films on compliant substrates and show that the resulting mechanics have many features in common with that of a simple accordion bellows.
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Stretchable supercapacitors based on buckled single-walled carbon-nanotube macrofilms.
TL;DR: Stretchable supercapacitors based on periodically sinusoidal single-walled carbon nanotube (SWNT) macrofilms (a 2D network of randomly oriented SWNTs) are reported, which are found to possess energy and power densities comparable with those of super capacitors using pristine SWNT macro Films as electrodes.
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Origami lithium-ion batteries
Zeming Song,Teng Ma,Rui Tang,Qian Cheng,Xu Wang,Deepakshyam Krishnaraju,Rahul Panat,Candace K. Chan,Hongyu Yu,Hanqing Jiang +9 more
TL;DR: An origami lithium-ion battery is demonstrated that can be deformed at an unprecedented high level, including folding, bending and twisting, and could provide a paradigm shift for architecture and design of flexible and curvilinear electronics with exceptional mechanical characteristics and functionalities.
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Biaxially Stretchable "Wavy" Silicon Nanomembranes
TL;DR: A biaxially stretchable form of single crystalline silicon that consists of two dimensionally buckled, or "wavy", silicon nanomembranes on elastomeric supports that might be interesting as a route to high-performance electronics with full, two-dimensional stretchability is introduced.