Helen Tran
Cited by
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One-dimensional electrical contact to a two-dimensional material
L Wang, I Meric, PY Huang, Q Gao, Y Gao, H Tran, T Taniguchi, ...
Science 342 (6158), 614-617, 2013
Biodegradable and flexible arterial-pulse sensor for the wireless monitoring of blood flow
CM Boutry, L Beker, Y Kaizawa, C Vassos, H Tran, AC Hinckley, ...
Nature biomedical engineering 3 (1), 47-57, 2019
Skin-inspired electronics: an emerging paradigm
S Wang, JY Oh, J Xu, H Tran, Z Bao
Accounts of chemical research 51 (5), 1033-1045, 2018
Mechanically tunable conductive interpenetrating network hydrogels that mimic the elastic moduli of biological tissue
VR Feig, H Tran, M Lee, Z Bao
Nature communications 9 (1), 2740, 2018
Biodegradable polymeric materials in degradable electronic devices
VR Feig, H Tran, Z Bao
ACS central science 4 (3), 337-348, 2018
Rational design of capacitive pressure sensors based on pyramidal microstructures for specialized monitoring of biosignals
SRA Ruth, L Beker, H Tran, VR Feig, N Matsuhisa, Z Bao
Advanced functional materials 30 (29), 1903100, 2020
Microengineering pressure sensor active layers for improved performance
SRA Ruth, VR Feig, H Tran, Z Bao
Advanced Functional Materials 30 (39), 2003491, 2020
Designing a quinone-based redox mediator to facilitate Li2S oxidation in Li-S batteries
Y Tsao, M Lee, EC Miller, G Gao, J Park, S Chen, T Katsumata, H Tran, ...
Joule 3 (3), 872-884, 2019
Shaken, not stirred: Collapsing a peptoid monolayer to produce free-floating, stable nanosheets
B Sanii, R Kudirka, A Cho, N Venkateswaran, GK Olivier, AM Olson, ...
Journal of the American Chemical Society 133 (51), 20808-20815, 2011
Intrinsically stretchable conjugated polymer semiconductors in field effect transistors
M Ashizawa, Y Zheng, H Tran, Z Bao
Progress in Polymer Science 100, 101181, 2020
Antibody-mimetic peptoid nanosheets for molecular recognition
GK Olivier, A Cho, B Sanii, MD Connolly, H Tran, RN Zuckermann
ACS nano 7 (10), 9276-9286, 2013
An electrochemical gelation method for patterning conductive PEDOT: PSS hydrogels
VR Feig, H Tran, M Lee, K Liu, Z Huang, L Beker, DG Mackanic, Z Bao
Advanced Materials 31 (39), 1902869, 2019
An intrinsically stretchable high‐performance polymer semiconductor with low crystallinity
Y Zheng, GJN Wang, J Kang, M Nikolka, HC Wu, H Tran, S Zhang, H Yan, ...
Advanced Functional Materials 29 (46), 1905340, 2019
Monolithic optical microlithography of high-density elastic circuits
YQ Zheng, Y Liu, D Zhong, S Nikzad, S Liu, Z Yu, D Liu, HC Wu, C Zhu, ...
Science 373 (6550), 88-94, 2021
Folding of a single‐chain, information‐rich polypeptoid sequence into a highly ordered nanosheet
R Kudirka, H Tran, B Sanii, KT Nam, PH Choi, N Venkateswaran, R Chen, ...
Peptide Science 96 (5), 586-595, 2011
Fully stretchable active-matrix organic light-emitting electrochemical cell array
J Liu, J Wang, Z Zhang, F Molina-Lopez, GJN Wang, BC Schroeder, ...
Nature communications 11 (1), 3362, 2020
Stretchable and fully degradable semiconductors for transient electronics
H Tran, VR Feig, K Liu, HC Wu, R Chen, J Xu, K Deisseroth, Z Bao
ACS central science 5 (11), 1884-1891, 2019
Engineering topochemical polymerizations using block copolymer templates
L Zhu, H Tran, FL Beyer, SD Walck, X Li, H Ågren, KL Killops, LM Campos
Journal of the American Chemical Society 136 (38), 13381-13387, 2014
Tuning the mechanical properties of a polymer semiconductor by modulating hydrogen bonding interactions
Y Zheng, M Ashizawa, S Zhang, J Kang, S Nikzad, Z Yu, Y Ochiai, HC Wu, ...
Chemistry of Materials 32 (13), 5700-5714, 2020
Monoliths of semiconducting block copolymers by magnetic alignment
H Tran, M Gopinadhan, PW Majewski, R Shade, V Steffes, CO Osuji, ...
ACS nano 7 (6), 5514-5521, 2013
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Articles 1–20