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Jinwon Oh
Jinwon Oh
在 stanford.edu 的电子邮件经过验证
标题
引用次数
引用次数
年份
Microstructured porous pyramid-based ultrahigh sensitive pressure sensor insensitive to strain and temperature
JC Yang, JO Kim, J Oh, SY Kwon, JY Sim, DW Kim, HB Choi, S Park
ACS applied materials & interfaces 11 (21), 19472-19480, 2019
4312019
Pressure Insensitive Strain Sensor with Facile Solution-Based Process for Tactile Sensing Applications
J Oh†, JC Yang†, JO Kim, H Park, SY Kwon, S Lee, JY Sim, HW Oh, J Kim, ...
ACS nano 12 (8), 7546-7553, 2018
1682018
Highly uniform and low hysteresis piezoresistive pressure sensors based on chemical grafting of polypyrrole on elastomer template with uniform pore size
J Oh, JO Kim, Y Kim, HB Choi, JC Yang, S Lee, M Pyatykh, J Kim, JY Sim, ...
Small 15 (33), 1901744, 2019
1242019
Steam-created grain boundaries for methane C–H activation in palladium catalysts
W Huang, AC Johnston-Peck, T Wolter, WCD Yang, L Xu, J Oh, ...
Science 373 (6562), 1518-1523, 2021
1162021
Highly ordered 3D microstructure-based electronic skin capable of differentiating pressure, temperature, and proximity
JO Kim, SY Kwon, Y Kim, HB Choi, JC Yang, J Oh, HS Lee, JY Sim, S Ryu, ...
ACS applied materials & interfaces 11 (1), 1503-1511, 2018
1092018
Intrinsically stretchable multi-functional fiber with energy harvesting and strain sensing capability
J Ryu, J Kim, J Oh, S Lim, JY Sim, JS Jeon, K No, S Park, S Hong
Nano Energy 55, 348-353, 2019
972019
Transparent Pressure Sensor with High Linearity over a Wide Pressure Range for 3D Touch Screen Applications
HB Choi†, J Oh†, Y Kim, M Pyatykh, J Chang Yang, S Ryu, S Park
ACS Applied Materials & Interfaces 12 (14), 16691-16699, 2020
642020
A Highly Sensitive Bending Sensor Based on Controlled Crack Formation Integrated with an Energy Harvesting Pyramid Layer
S Lee†, J Oh†, JC Yang, JY Sim, J Ryu, JO Kim, S Park
Advanced Materials Technologies, 1800307, 2018
222018
A semi-continuous process for co-production of CO2-free hydrogen and carbon nanotubes via methane pyrolysis
E Sun, S Zhai, D Kim, M Gigantino, V Haribal, OS Dewey, SM Williams, ...
Cell Reports Physical Science 4 (4), 2023
92023
Iron-Poor Ferrites for Low-Temperature CO2 Conversion via Reverse Water–Gas Shift Thermochemical Looping
J Rojas, E Sun, G Wan, J Oh, R Randall, V Haribal, I Jung, R Gupta, ...
ACS Sustainable Chemistry & Engineering 10 (37), 12252-12261, 2022
72022
Palladium Catalysts for Methane Oxidation: Old Materials, New Challenges
J Oh, A Boucly, JA van Bokhoven, L Artiglia, M Cargnello
Accounts of Chemical Research 57 (1), 23-36, 2023
52023
Colloidally Engineered Pd and Pt Catalysts Distinguish Surface-and Vapor-Mediated Deactivation Mechanisms
J Oh†, A Beck†, ED Goodman, LT Roling, A Boucly, L Artiglia, ...
ACS Catalysis 13 (3), 1812-1822, 2023
42023
Sulfur-treated TiO 2 shows improved alcohol dehydration activity and selectivity
AR Riscoe, J Oh, M Cargnello
Nanoscale 14 (7), 2848-2858, 2022
32022
Pressure sensors: highly uniform and low hysteresis Piezoresistive pressure sensors based on chemical grafting of polypyrrole on elastomer template with uniform pore size …
J Oh, JO Kim, Y Kim, HB Choi, JC Yang, S Lee, M Pyatykh, J Kim, JY Sim, ...
Small 33 (15), n/a-n/a, 2019
32019
Low-temperature carbon dioxide conversion via reverse water-gas shift thermochemical looping with supported iron oxide
E Sun, G Wan, V Haribal, M Gigantino, S Marin-Quiros, J Oh, A Vailionis, ...
Cell Reports Physical Science 4 (9), 2023
22023
Understanding the effects of manganese and zinc promoters on ferrite catalysts for CO2 hydrogenation to hydrocarbons through colloidal nanocrystals
CJ Chen†, J Oh†, AC Yang, C Zhou, G Liccardo, S Sapru, M Cargnello
Surface Science 741, 122424, 2024
2024
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