受强制性开放获取政策约束的文章 - Mingzhe Li了解详情
可在其他位置公开访问的文章:18 篇
Cold-programmed shape-morphing structures based on grayscale digital light processing 4D printing
L Yue, X Sun, L Yu, M Li, SM Montgomery, Y Song, T Nomura, M Tanaka, ...
Nature Communications 14 (1), 5519, 2023
强制性开放获取政策: US National Science Foundation, US Department of Defense
One‐Pot Synthesis of Depolymerizable δ‐Lactone Based Vitrimers
L Yue, YL Su, M Li, L Yu, SM Montgomery, X Sun, MG Finn, ...
Advanced Materials 35 (29), 2300954, 2023
强制性开放获取政策: US National Science Foundation, US Department of Defense
Nanopore size effect on critical infiltration depth of liquid nanofoam as a reusable energy absorber
M Li, L Xu, W Lu
Journal of Applied Physics 125 (4), 044303, 2019
强制性开放获取政策: US National Science Foundation
Compressing liquid nanofoam systems: liquid infiltration or nanopore deformation?
Y Zhang#, M Li#, Y Gao, B Xu, W Lu
Nanoscale 10 (39), 18444-18450, 2018
强制性开放获取政策: US National Science Foundation
Low-temperature 3D printing of transparent silica glass microstructures
M Li#, L Yue#, AC Rajan, L Yu, H Sahu, SM Montgomery, R Ramprasad, ...
Science Advances 9 (40), eadi2958, 2023
强制性开放获取政策: US National Science Foundation, US Department of Defense
Spontaneous outflow efficiency of confined liquid in hydrophobic nanopores
Y Gao#, M Li#, Y Zhang, W Lu, B Xu
Proceedings of the National Academy of Sciences 117 (41), 25246-25253, 2020
强制性开放获取政策: US National Science Foundation
Anomalous solid-like necking of confined water outflow in hydrophobic nanopores
Y Gao#, M Li#, H Zhang, Y Zhang, W Lu, B Xu
Matter 5 (1), 266-280, 2022
强制性开放获取政策: US National Science Foundation
Effect of electrolytes on gas oversolubility and liquid outflow from hydrophobic nanochannels
L Xu, M Li, W Lu
Langmuir 35 (45), 14505-14510, 2019
强制性开放获取政策: US National Science Foundation
Enhanced energy mitigation of thin-walled tube filled with liquid nanofoam under dynamic impact
M Li, S Barbat, R Baccouche, J Belwafa, W Lu
Composites Part B: Engineering 193, 108047, 2020
强制性开放获取政策: US National Science Foundation
Effect of extra gas amount on liquid outflow from hydrophobic nanochannels: enhanced liquid–gas interaction and bubble nucleation
M Li, L Xu, W Lu
Langmuir 36 (17), 4682-4688, 2020
强制性开放获取政策: US National Science Foundation
Nanoconfined Water‐Ion Coordination Network for Flexible Energy Dissipation Device
Y Gao#, M Li#, C Zhan, H Zhang, M Yin, W Lu, B Xu
Advanced Materials, 2303759, 2023
强制性开放获取政策: US National Science Foundation
Spontaneous liquid outflow from hydrophobic nanopores: Competing liquid–solid and liquid–gas interactions
M Li, C Zhan, W Lu
Applied Physics Letters 119 (18), 181603, 2021
强制性开放获取政策: US National Science Foundation
Time-and Pressure-Dependent Gas Diffusion in a Nanoconfined Liquid Phase
L Xu#, M Li#, W Lu
The Journal of Physical Chemistry C 125 (10), 5596-5601, 2021
强制性开放获取政策: US National Science Foundation
A thermoresponsive liquid with unique two-way volume memory function
M Li, C Zhan, W Lu
Smart Materials and Structures 30 (5), 055018, 2021
强制性开放获取政策: US National Science Foundation
Functionalized water molecules confined in hydrogels for energy mitigation by assembling liquid nanofoams in micro polymeric pockets
C Zhan, M Li, W Lu
Composites Communications 20, 100357, 2020
强制性开放获取政策: US National Science Foundation
Dent-inert post-buckling behavior of liquid nanofoam-filled tube
F Yang#, M Li#, W Lu
Thin-Walled Structures 151, 106716, 2020
强制性开放获取政策: US National Science Foundation
Chemical Circularity in 3d Printing with Biobased Δ‐Valerolactone
L Yue, YL Su, M Li, L Yu, X Sun, J Cho, B Brettmann, WR Gutekunst, ...
Advanced Materials, 2310040, 2024
强制性开放获取政策: US National Science Foundation, US Department of Defense
Enhanced Structural Imperfection Resistance in Thin-Walled Tubes Filled with Liquid Nanofoam
M Li, F Yang, W Lu
Mechanics of Composite, Hybrid and Multifunctional Materials, Volume 6 …, 2021
强制性开放获取政策: US National Science Foundation
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