Artikler med krav om offentlig adgang - Edwin L. ThomasFå flere oplysninger
Ikke tilgængelige nogen steder: 12
3D printed stretching-dominated micro-trusses
M Kaur, TG Yun, SM Han, EL Thomas, WS Kim
Materials & Design 134, 272-280, 2017
Krav: Natural Sciences and Engineering Research Council of Canada
Visible Mie scattering in nonabsorbing hollow sphere powders
M Retsch, M Schmelzeisen, HJ Butt, EL Thomas
Nano letters 11 (3), 1389-1394, 2011
Krav: German Research Foundation
Dynamic creation and evolution of gradient nanostructure in single-crystal metallic microcubes
R Thevamaran, O Lawal, S Yazdi, SJ Jeon, JH Lee, EL Thomas
Science 354 (6310), 312-316, 2016
Krav: US Department of Energy, European Commission, Government of Spain
Role of Increased Crystallinity in Deformation-Induced Structure of Segmented Thermoplastic Polyurethane Elastomers with PEO and PEO− PPO− PEO Soft Segments and HDI Hard Segments
RS Waletzko, LSTJ Korley, BD Pate, EL Thomas, PT Hammond
Macromolecules 42 (6), 2041-2053, 2009
Krav: US National Institutes of Health
One-dimensional hypersonic phononic crystals
N Gomopoulos, D Maschke, CY Koh, EL Thomas, W Tremel, HJ Butt, ...
Nano Letters 10 (3), 980-984, 2010
Krav: German Research Foundation
Projectile impact shock-induced deformation of one-component polymer nanocomposite thin films
J Hyon, M Gonzales, JK Streit, O Fried, O Lawal, Y Jiao, LF Drummy, ...
ACS nano 15 (2), 2439-2446, 2021
Krav: US Department of Defense
Nanoscale 3D ordered polymer networks
EL Thomas
Science China Chemistry 61, 25-32, 2018
Krav: US Department of Energy
High-resolution quantum dot photopatterning via interference lithography assisted microstamping
ST Malak, G Liang, R Thevamaran, YJ Yoon, MJ Smith, J Jung, CH Lin, ...
The Journal of Physical Chemistry C 121 (24), 13370-13380, 2017
Krav: US Department of Defense
Dynamic polymer network conductive Nanocomposites: Low percolation threshold and Joule-heating-induced network plasticity
Z Sang, Q Zhou, KK Rajagopalan, EL Thomas, F Gardea, SA Sukhishvili
Chemical Engineering Journal 443, 136400, 2022
Krav: US Department of Defense
High-Strength, Microporous, Two-Dimensional Polymer Thin Films with Rigid Benzoxazole Linkage
KA Miller, LB Alemany, S Roy, Q Yan, PG Demingos, CV Singh, ...
ACS Applied Materials & Interfaces 14 (1), 1861-1873, 2022
Krav: US National Science Foundation
Cryo-FIB and Synchrotron SAXS/WAXS Studies of Confined Crystallization of PDMS in Tubular Network Block Copolymer Morphologies
V Subramanian, K Wu, X Feng, E Tsai, R Li, G Freychet, M Zhernenkov, ...
Microscopy and Microanalysis 29 (Supplement_1), 523-525, 2023
Krav: US National Science Foundation, US Department of Energy
Size Effects in Single-Crystal Metallic Micro-and Nanocubes
R Thevamaran, S Pathak, S Yazdi, SJ Jeon, O Lawal, N Mara, EL Thomas
Micro and Nanomechanics, Volume 5: Proceedings of the 2017 Annual Conference …, 2018
Krav: US Department of Energy
Tilgængelige et sted: 32
Seeing mesoatomic distortions in soft-matter crystals of a double-gyroid block copolymer
X Feng, CJ Burke, M Zhuo, H Guo, K Yang, A Reddy, I Prasad, RM Ho, ...
Nature 575 (7781), 175-179, 2019
Krav: US National Science Foundation, US Department of Energy
High-velocity projectile impact induced 9R phase in ultrafine-grained aluminium
S Xue, Z Fan, OB Lawal, R Thevamaran, Q Li, Y Liu, KY Yu, J Wang, ...
Nature communications 8 (1), 1653, 2017
Krav: US National Science Foundation, US Department of Energy, US Department of …
Extreme energy absorption in glassy polymer thin films by supersonic micro-projectile impact
J Hyon, O Lawal, O Fried, R Thevamaran, S Yazdi, M Zhou, D Veysset, ...
Materials Today 21 (8), 817-824, 2018
Krav: US Department of Defense
High-velocity micro-projectile impact testing
D Veysset, JH Lee, M Hassani, SE Kooi, EL Thomas, KA Nelson
Applied Physics Reviews 8 (1), 2021
Krav: US Department of Defense
Tunable affinity and molecular architecture lead to diverse self-assembled supramolecular structures in thin films
CH Hsu, XH Dong, Z Lin, B Ni, P Lu, Z Jiang, D Tian, AC Shi, EL Thomas, ...
ACS nano 10 (1), 919-929, 2016
Krav: US National Science Foundation, US Department of Energy, Natural Sciences …
Nonlinear control of high-frequency phonons in spider silk
D Schneider, N Gomopoulos, CY Koh, P Papadopoulos, F Kremer, ...
Nature materials 15 (10), 1079-1083, 2016
Krav: German Research Foundation
Generalizing the effects of chirality on block copolymer assembly
HF Wang, KC Yang, WC Hsu, JY Lee, JT Hsu, GM Grason, EL Thomas, ...
Proceedings of the National Academy of Sciences 116 (10), 4080-4089, 2019
Krav: US Department of Defense
Networks with controlled chirality via self-assembly of chiral triblock terpolymers
HF Wang, PT Chiu, CY Yang, ZH Xie, YC Hung, JY Lee, JC Tsai, I Prasad, ...
Science advances 6 (42), eabc3644, 2020
Krav: US Department of Defense
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