Zhu-Jun Wang
Cited by
Cited by
Observing graphene grow: catalyst–graphene interactions during scalable graphene growth on polycrystalline copper
PR Kidambi, BC Bayer, R Blume, ZJ Wang, C Baehtz, RS Weatherup, ...
Nano letters 13 (10), 4769-4778, 2013
Direct Observation of Graphene Growth and Associated Copper Substrate Dynamics by in Situ Scanning Electron Microscopy
ZJ Wang, G Weinberg, Q Zhang, T Lunkenbein, A Klein-Hoffmann, ...
ACS nano 9 (2), 1506-1519, 2015
Epitaxial growth of a 100-square-centimetre single-crystal hexagonal boron nitride monolayer on copper
L Wang, X Xu, L Zhang, R Qiao, M Wu, Z Wang, S Zhang, J Liang, ...
Nature 570 (7759), 91-95, 2019
The influence of intercalated oxygen on the properties of graphene on polycrystalline Cu under various environmental conditions
R Blume, PR Kidambi, BC Bayer, RS Weatherup, ZJ Wang, G Weinberg, ...
Physical Chemistry Chemical Physics 16 (47), 25989-26003, 2014
Stacking sequence and interlayer coupling in few-layer graphene revealed by in situ imaging
ZJ Wang, J Dong, Y Cui, G Eres, O Timpe, Q Fu, F Ding, R Schlögl, ...
Nature communications 7 (1), 1-12, 2016
In situ graphene growth dynamics on polycrystalline catalyst foils
RS Weatherup, AJ Shahani, ZJ Wang, K Mingard, AJ Pollard, ...
Nano letters 16 (10), 6196-6206, 2016
Large-area single-crystal AB-bilayer and ABA-trilayer graphene grown on a Cu/Ni (111) foil
M Huang, PV Bakharev, ZJ Wang, M Biswal, Z Yang, S Jin, B Wang, ...
Nature nanotechnology 15 (4), 289-295, 2020
What drives metal-surface step bunching in graphene chemical vapor deposition?
D Yi, D Luo, ZJ Wang, J Dong, X Zhang, MG Willinger, RS Ruoff, F Ding
Physical review letters 120 (24), 246101, 2018
A large-area transferable wide band gap 2D silicon dioxide layer
C Büchner, ZJ Wang, KM Burson, MG Willinger, M Heyde, R Schlögl, ...
ACS nano 10 (8), 7982-7989, 2016
Seeded growth of large single-crystal copper foils with high-index facets
M Wu, Z Zhang, X Xu, Z Zhang, Y Duan, J Dong, R Qiao, S You, L Wang, ...
Nature 581 (7809), 406-410, 2020
The oxidation of copper catalysts during ethylene epoxidation
MT Greiner, TE Jones, BE Johnson, TCR Rocha, ZJ Wang, M Armbrüster, ...
Physical Chemistry Chemical Physics 17 (38), 25073-25089, 2015
In situ scanning electron microscopy observation of growth kinetics and catalyst splitting in vapor–liquid–solid growth of nanowires
X Huang, ZJ Wang, G Weinberg, XM Meng, MG Willinger
Advanced Functional Materials 25 (37), 5979-5987, 2015
Imaging the dynamics of catalysed surface reactions by in situ scanning electron microscopy
C Barroo, ZJ Wang, R Schlögl, MG Willinger
Nature Catalysis 3 (1), 30-39, 2020
The Coalescence Behavior of Two-Dimensional Materials Revealed by Multiscale In Situ Imaging during Chemical Vapor Deposition Growth
ZJ Wang, J Dong, L Li, G Dong, Y Cui, Y Yang, W Wei, R Blume, Q Li, ...
ACS nano 14 (2), 1902-1918, 2020
In-situ redox cycling behaviour of Ni–BaZr0. 85Y0. 15O3− δ cermet anodes for Protonic Ceramic Fuel Cells
N Nasani, ZJ Wang, MG Willinger, AA Yaremchenko, DP Fagg
international journal of hydrogen energy 39 (34), 19780-19788, 2014
In situ formation of crystallographically oriented semiconductor nanowire arrays via selective vaporization for optoelectronic applications
X Huang, Y Yu, T Jones, H Fan, L Wang, J Xia, ZJ Wang, LD Shao, ...
Advanced Materials 28 (35), 7603-7612, 2016
Exploring antibiotic resistant mechanism by microcalorimetry: determination of thermokinetic parameters of metallo-β-lactamase L1 catalyzing penicillin G hydrolysis
HZ Gao, Q Yang, XY Yan, ZJ Wang, JL Feng, X Yang, SL Gao, L Feng, ...
Journal of thermal analysis and calorimetry 107 (1), 321-324, 2012
Corrosion behaviour of nitrided ferritic stainless steels for use in solid oxide fuel cell devices
M Bianco, S Poitel, JE Hong, S Yang, ZJ Wang, M Willinger, ...
Corrosion Science 165, 108414, 2020
Effect of molten sodium nitrate on the decomposition pathways of hydrated magnesium hydroxycarbonate to magnesium oxide probed by in situ total scattering
M Rekhtina, A Dal Pozzo, D Stoian, A Armutlulu, F Donat, MV Blanco, ...
Nanoscale 12 (31), 16462-16473, 2020
Enthalpy of Solution of 5-R-Na2bdc·nH2O (H2bdc = Isophthalic Acid, R = H, NH2, OH, CH3, NO2) at 298.15 K
ZJ Wang, SP Chen, YY Di, Q Yang, SL Gao
Journal of Chemical & Engineering Data 55 (12), 5786-5790, 2010
The system can't perform the operation now. Try again later.
Articles 1–20