Wen Huang
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Assembly of micro/nanomaterials into complex, three-dimensional architectures by compressive buckling
S Xu, Z Yan, KI Jang, W Huang, H Fu, J Kim, Z Wei, M Flavin, ...
Science 347 (6218), 154-159, 2015
Morphable 3D mesostructures and microelectronic devices by multistable buckling mechanics
H Fu, K Nan, W Bai, W Huang, K Bai, L Lu, C Zhou, Y Liu, F Liu, J Wang, ...
Nature materials 17 (3), 268-276, 2018
On-Chip Inductors with Self-Rolled-Up SiNx Nanomembrane Tubes: A Novel Design Platform for Extreme Miniaturization
W Huang, X Yu, P Froeter, R Xu, P Ferreira, X Li
Nano letters 12 (12), 6283-6288, 2012
Toward intelligent synthetic neural circuits: directing and accelerating neuron cell growth by self-rolled-up silicon nitride microtube array
P Froeter, Y Huang, OV Cangellaris, W Huang, EW Dent, MU Gillette, ...
ACS nano 8 (11), 11108-11117, 2014
Three-dimensional radio-frequency transformers based on a self-rolled-up membrane platform
W Huang, J Zhou, PJ Froeter, K Walsh, S Liu, MD Kraman, M Li, ...
Nature Electronics 1 (5), 305-313, 2018
Electro-mechanically controlled assembly of reconfigurable 3D mesostructures and electronic devices based on dielectric elastomer platforms
W Pang, X Cheng, H Zhao, X Guo, Z Ji, G Li, Y Liang, Z Xue, H Song, ...
National science review 7 (2), 342-354, 2020
3D hierarchical architectures based on self-rolled-up silicon nitride membranes
P Froeter, X Yu, W Huang, F Du, M Li, I Chun, SH Kim, KJ Hsia, JA Rogers, ...
Nanotechnology 24 (47), 475301, 2013
Ultra-small, high-frequency and substrate-immune microtube inductors transformed from 2D to 3D
X Yu, W Huang, M Li, TM Comberiate, S Gong, JE Schutt-Aine, X Li
Scientific reports 5 (1), 9661, 2015
Precision structural engineering of self-rolled-up 3D nanomembranes guided by transient quasi-static FEM modeling
W Huang, S Koric, X Yu, KJ Hsia, X Li
Nano letters 14 (11), 6293-6297, 2014
Engineered elastomer substrates for guided assembly of complex 3D mesostructures by spatially nonuniform compressive buckling
K Nan, H Luan, Z Yan, X Ning, Y Wang, A Wang, J Wang, M Han, ...
Advanced functional materials 27 (1), 1604281, 2017
High-gain UWB Vivaldi antenna loaded with reconfigurable 3-D phase adjusting unit lens
L Sang, S Wu, G Liu, J Wang, W Huang
IEEE Antennas and Wireless Propagation Letters 19 (2), 322-326, 2019
Geometrically reconfigurable 3D mesostructures and electromagnetic devices through a rational bottom-up design strategy
K Bai, X Cheng, Z Xue, H Song, L Sang, F Zhang, F Liu, X Luo, W Huang, ...
Science advances 6 (30), eabb7417, 2020
Monolithic mtesla-level magnetic induction by self-rolled-up membrane technology
W Huang, Z Yang, MD Kraman, Q Wang, Z Ou, MM Rojo, AS Yalamarthy, ...
Science advances 6 (3), eaay4508, 2020
Mechanically‐guided deterministic assembly of 3D mesostructures assisted by residual stresses
H Fu, K Nan, P Froeter, W Huang, Y Liu, Y Wang, J Wang, Z Yan, H Luan, ...
small 13 (24), 1700151, 2017
Anisotropic rolling and controlled chirality of nanocrystalline diamond nanomembranes toward biomimetic helical frameworks
Z Tian, W Huang, B Xu, X Li, YF Mei
Nano letters 18 (6), 3688-3694, 2018
Monolithic heterogeneous integration of 3D radio frequency L− C elements by self‐rolled‐up membrane nanotechnology
Z Yang, MD Kraman, Z Zheng, H Zhao, J Zhang, S Gong, YV Shao, ...
Advanced Functional Materials 30 (40), 2004034, 2020
Colloidal Metal-Organic Framework Hexapods Prepared from Post-Synthesis Etching with Enhanced Catalytic Activity and Rollable Packing
Z Ou, X Song, W Huang, X Jiang, S Qu, Q Wang, P Braun, J Moore, X Li, Q Chen
ACS Appl. Mater. Interfaces 10 (48), 40990-40995, 2018
Monolithic radio frequency SiNx self-rolled-up nanomembrane interdigital capacitor modeling and fabrication
L Sang, H Zhou, Z Yang, MD Kraman, H Zhao, JA Michaels, DJ Sievers, ...
Nanotechnology 30 (36), 364001, 2019
Reconfigurable nanoscale soft materials
Z Ou, A Kim, W Huang, P Braun, X Li, Q Chen
Current Opinion in Solid State and Materials Science, 2018
Rolled-up inductor structure for a radiofrequency integrated circuit (RFIC)
X Li, W Huang, PM Ferreira, X Yu
US Patent 9,224,532, 2015
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