Song Wang
Cited by
Cited by
Transformation strategy for highly crystalline covalent triazine frameworks: from staggered AB to eclipsed AA stacking
Z Yang, H Chen, S Wang, W Guo, T Wang, X Suo, D Jiang, X Zhu, ...
Journal of the American Chemical Society 142 (15), 6856-6860, 2020
Surpassing Robeson upper limit for CO2/N2 separation with fluorinated carbon molecular sieve membranes
Z Yang, W Guo, SM Mahurin, S Wang, H Chen, L Cheng, K Jie, HM Meyer, ...
Chem 6 (3), 631-645, 2020
Construction of a nanoporous highly crystalline hexagonal boron nitride from an amorphous precursor for catalytic dehydrogenation
H Chen, Z Yang, Z Zhang, Z Chen, M Chi, S Wang, J Fu, S Dai
Angewandte Chemie 131 (31), 10736-10740, 2019
An all-round AI-Chemist with a scientific mind
Q Zhu, F Zhang, Y Huang, H Xiao, LY Zhao, XC Zhang, T Song, XS Tang, ...
National Science Review 9 (10), nwac190, 2022
Influence of fluorination on CO 2 adsorption in materials derived from fluorinated covalent triazine framework precursors
Z Yang, S Wang, Z Zhang, W Guo, K Jie, MI Hashim, OŠ Miljanić, D Jiang, ...
Journal of materials chemistry A 7 (29), 17277-17282, 2019
Insights into CO2/N2 Selectivity in Porous Carbons from Deep Learning
S Wang, Z Zhang, S Dai, D Jiang
ACS Materials Letters 1 (5), 558-563, 2019
Interlayer charge transfer regulates single-atom catalytic activity on electride/graphene 2D heterojunctions
W Li, C Liu, C Gu, JH Choi, S Wang, J Jiang
Journal of the American Chemical Society 145 (8), 4774-4783, 2023
Structural transformation and catalytic hydrogenation activity of amidinate-protected copper hydride clusters
CY Liu, SF Yuan, S Wang, ZJ Guan, D Jiang, QM Wang
Nature Communications 13 (1), 2082, 2022
One at a time: counting single-nanoparticle/electrode collisions for accurate particle sizing by overcoming the instability of gold nanoparticles under electrolytic conditions
D Qiu, S Wang, Y Zheng, Z Deng
Nanotechnology 24 (50), 505707, 2013
Prediction by Convolutional Neural Networks of CO2/N2 Selectivity in Porous Carbons from N2 Adsorption Isotherm at 77 K
S Wang, Y Li, S Dai, D Jiang
Angewandte Chemie International Edition 59 (44), 19645-19648, 2020
Continuously tunable pore size for gas separation via a bilayer nanoporous graphene membrane
S Wang, S Dai, D Jiang
ACS Applied Nano Materials 2 (1), 379-384, 2018
Effect of pore density on gas permeation through nanoporous graphene membranes
S Wang, Z Tian, S Dai, D Jiang
Nanoscale 10 (30), 14660-14666, 2018
Deep learning accelerated determination of hydride locations in metal nanoclusters
S Wang, Z Wu, S Dai, D Jiang
Angewandte Chemie 133 (22), 12397-12400, 2021
Design of graphene/ionic liquid composites for carbon capture
S Wang, SM Mahurin, S Dai, D Jiang
ACS Applied Materials & Interfaces 13 (15), 17511-17516, 2021
From highly purified boron nitride to boron nitride‐based heterostructures: an inorganic precursor‐based strategy
H Chen, Z Yang, W Guo, JR Dunlap, J Liang, Y Sun, K Jie, S Wang, J Fu, ...
Advanced Functional Materials 29 (50), 1906284, 2019
Fabrication of ionic covalent triazine framework-linked membranes via a facile sol–gel approach
Z Yang, T Liu, S Wang, H Chen, X Suo, T Wang, BP Thapaliya, D Jiang, ...
Chemistry of Materials 33 (9), 3386-3393, 2021
Ion-gated carbon molecular sieve gas separation membranes
W Guo, SM Mahurin, S Wang, HM Meyer III, H Luo, X Hu, D Jiang, S Dai
Journal of membrane science 604, 118013, 2020
Locating hydrides in ligand-protected copper nanoclusters by deep learning
S Wang, T Liu, D Jiang
ACS Applied Materials & Interfaces 13 (45), 53468-53474, 2021
Optimal Size of a Cylindrical Pore for Post-Combustion CO2 Capture
S Wang, Z Tian, S Dai, D Jiang
The Journal of Physical Chemistry C 121 (40), 22025-22030, 2017
Pt supraparticles with controllable DNA valences for programmed nanoassembly
G Chen, S Wang, L Song, X Song, Z Deng
Chemical communications 53 (70), 9773-9776, 2017
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