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  • 中文论文
206.
[195] Ultrathin Quantum Light Source with van der Waals NbOCl2 Crystal

Guo, Q.#; Qi, X.-Z.#; Zhang, L.#; Gao, M.#; Hu, S.; Zhou, W.; Zang, W.; Zhao, X.; Wang, J.; Yan, B.; Xu, M.; Wu, Y.-K.; Eda, G.; Xiao, Z.; Yang, S. A.; Gou, H.; Feng, Y. P.; Guo, G.-C.; Zhou, W.; Ren, X.-F.*; Qiu, C.-W.*; Pennycook, S. J.*; Wee, A. T. S.*

Nature 613, 53-59 (2023)


205.
[194] Collective Magnetic Behavior in Vanadium Telluride Induced by Self-Intercalation

Guzman, R.#*; Ning, S.#; Zhang, R.#; Liu, H.; Ma, Y.; Zhang, Y.-Y.; Bao, L.; Yang, H.; Du, S.; Bosman, M.; Pennycook, S. J.; Gao, H.-J.; Zhou, W* 

ACS Nano Online 2023



204.

[193] Fully Exposed Palladium Cluster Catalysts Enable Hydrogen Production from Nitrogen Heterocycles

Dong, C.#; Gao, Z.#; Li, Y.#; Peng, M.#; Wang, M.; Xu, Y.; Li, C.; Xu, M.; Deng, Y.; Qin, X.; Huang, F.; Wei, X.; Wang, Y.-G.*; Liu, H.*; Zhou, W.*; Ma, D.*

Nature Catalysis 5, 485-493 (2022)


203.
[192] Heteroepitaxy of Semiconducting 2H-MoTe2 Thin Films on Arbitrary Surfaces for Large-scale Heterogeneous Integration

Pan, Y. #; Guzman, R. #; Li, S.; Xu, W.; Li, Y.; Tang, N.; Yin, H.; He, J.; Wu, A.; Chen, J. *; Zhou, W. *; Xu, X. *; Ye, Y. *

Nature Synthesis 1,701-708 (2022)


202.
[191] Single Atom Catalysts in Van der Waals Gaps

Jiang, H.#; Yang, W.#; Xu, M.#; Wang, E.#; Wei, Y.; Liu, W.; Gu, X.; Liu, L.; Chen, Q.; Zhai, P.; Zou, X.; Ajayan, P. M.; Zhou, W.*; Gong, Y.*

Nature Communications 13, 6863 (2022)


201.
[190] Ferromagnetic-Antiferromagnetic Coexisting Ground State and Exchange Bias Effects in MnBi4Te7 and MnBi6Te10

Xu, X.#; Yang, S.#; Wang, H.; Guzman, R.; Gao, Y.; Zhu, Y.; Peng, Y.; Zang, Z.; Xi, M.; Tian, S.-J.; Li, Y.; Lei, H.; Luo, Z.; Yang, J.; Wang, Y.; Xia, T. L.*; Zhou, W.*; Huang, Y.*; Ye, Y.*

Nature Communications 13, 7646 (2022)


200.
[189] Electrochemical CO₂ Reduction to Ethylene by Ultrathin CuO Nanoplate Arrays

Liu, W.#; Zhai, P.#; Li, A.#; Wei, B.#; Si, K.; Wei, Y.; Wang, X.; Zhu, G.; Chen, Q.; Gu, X.; Zhang, R.; Zhou, W.; Gong, Y.*

Nature Communications 13, 1877 (2022)


199.
[188] Direct Growth of Single-Metal-Atom Chains

Guo, S.#; Fu, J.#; Zhang, P.#; Zhu, C.#; Yao, H.; Xu, M.; An, B.; Wang, X.; Tang, B.; Deng, Y.; Salim, T.; Du, H.; Dunin-Borkowski, R. E.; Xu, M.; Zhou, W.; Tay, B. K.; Zhu, C.; He, Y.; Hofmann, M.; Hsieh, Y.-P.; Guo, W.; Ng, M.; Jia, C.*; Zhang, Z.*; He, Y.*; Liu, Z.*

Nature Synthesis 1, 245-253 (2022)


198.
[187] Flux-assisted Growth of Atomically Thin Materials

Zhang, P.#; Wang, X.#; Jiang, H.#; Zhang, Y.; He, Q.; Si, K.; Li, B.; Zhao, F.; Anyang, C.; Wei, Y.; Liu, L.; Que, H.; Tang, P.; Hu, Z.; Zhou, W.; Wu, K.*; Gong, Y.*

Nature Synthesis 1, 864–872 (2022)


197.
[186] Unprecedentedly High Activity and Selectivity for Hydrogenation of Nitroarenes With Single Atomic Co₁-N₃P₁ Sites

Jin, H.; Li, P.; Cui, P.; Shi, J.; Zhou, W.; Yu, X.*; Song, W.; Cao, C.*

Nature Communications 13, 723 (2022)


196.
[185] Fully-Exposed Pt-Fe Cluster for Efficient Preferential Oxidation of CO towards Hydrogen Purification

Jia, Z.#; Qin, X.#; Chen, Y.#; Cai, X.#; Gao, Z.; Peng, M.; Huang, F.; Xiao, D.; Wen, X.; Wang, N.; Jiang, Z.; Zhou, W.; Liu, H.*; Ma, D.*

Nature Communications 13, 6798 (2022)


195.
[184] Atomically Dispersed Ir/α-MoC Catalyst with High Metal Loading and Thermal Stability for Water-Promoted Hydrogenation Reaction

Li, S. W.#; Cao, R. C.#; Xu, M. Q.#; Deng, Y. C.; Lin, L. L.; Yao, S. Y.; Liang, X.; Peng, M.; Gao, Z. R.; Ge, Y. Z.; Liu, J. X.*; Li, W. X.; Zhou, W.*; Ma, D.*

National Science Review 9, nwab026 (2022)


194.
[183] Titanium Doped Kagome Superconductor CsV3−xTixSb5 and Two Distinct Phases

Yang, H.#; Huang, Z.#; Zhang, Y.#; Zhao, Z.#; Shi, J.; Luo, H.; Zhao, L.; Qian, G.; Tan, H.; Hu, B.; Zhu, K.; Lu, Z.; Zhang, H.; Sun, J.; Cheng, J.; Shen, C.; Lin, X.; Yan, B.; Zhou, X.; Wang, Z.; Pennycook, S. J.; Chen, H.*; Dong, X.*; Zhou, W.*; Gao, H.-J. *

Science Bulletin 67, 2176–2185(2022)


193.
[182] Experimental Realization of Atomic Monolayer Si9C15

Gao, Z.-Y.; Xu, W.; Gao, Y.; Guzman, R.; Guo, H.; Wang, X.; Zheng, Q.; Zhu, Z.; Zhang, Y.-Y.; Lin, X.; Huan, Q.; Li, G. *; Zhang, L. *; Zhou, W. *; Gao, H.-J. *

Advanced Materials 34, 2204779 (2022)


192.
[181] Periodic One-Dimensional Single-Atom Arrays

Wang, L.#; Wang, J.#; Gao, X.#; Chen, C.; Da, Y.; Wang, S.; Yang, J.; Wang, Z.; Song, J.; Yao, T.; Zhou, W. *; Zhou, H. *; Wu, Y. *

Journal of the American Chemical Society 144, 15999-16005 (2022)


191.
[180] Importance of Species Heterogeneity in Supported Metal Catalysts

Zhang, J.#; Wang, M.#*; Gao, Z.#; Qin, X.; Xu, Y.; Wang, Z.; Zhou, W.*; Ma, D.*

Journal of the American Chemical Society 144, 5108-5115 (2022)


190.

[179] Catalytic Synthesis of Formamides by Integrating CO₂ Capture and Morpholine Formylation on Supported Iridium Catalyst

Cheng, D.; Wang, M.*; Tang, L.; Gao, Z.; Qin, X.; Gao, Y.*; Xiao, D.; Zhou, W.; Ma, D.*

Angewandte Chemie International Edition 61, e202202654 (2022)


189.
[178] Observation of an Incommensurate Charge Density Wave in Monolayer TiSe₂/CuSe/Cu(111) Heterostructure

Song, Z.; Huang, J.; Zhang, S.; Cao, Y.; Liu, C.; Zhang, R.; Zheng, Q.; Cao, L.; Huang, L.; Wang, J.; Qian, T.; Ding, H.; Zhou, W.; Zhang, Y.-Y.; Lu, H.*; Shen, C.; Lin, X.*; Du, S.; Gao, H.-J.

Physical Review Letters 128, 026401 (2022)


188.
[177] Artificial Neuron Networks Enabled Identification and Characterizations of 2D Materials and van der Waals Heterostructures

Zhu, L.; Tang, J.; Li, B.; Hou, T.; Zhu, Y.; Zhou, J.; Wang, Z.; Zhu, X.; Yao, Z.; Cui, X.; Watanabe, K.; Taniguchi, T.; Li, Y.; Han, Z. V.; Zhou, W.; Huang, Y.; Liu, Z.; Hone, J. C.; Hao, Y.*

ACS Nano 16, 2721-2729 (2022)


187.
[176] Engineering Interlayer Electron–Phonon Coupling in WS2/BN

Li, Y.#; Zhang, X.#; Wang, J.; Ma, X.; Shi, J.-A.; Guo, X.; Zuo, Y.; Li, R.; Hong, H.; Li, N.; Xu, K.; Huang, X.; Tian, H.; Yang, Y.; Yao, Z.; Liao, P.; Li, X.; Guo, J.; Huang, Y.; Gao, P.; Wang, L.; Yang, X.; Dai, Q.; Wang, E.; Liu, K.; Zhou, W.; Yu, X.; Liang, L.; Jiang, Y.; Li, X.-Z.*; Liu, L.*

Nano Letters 22, 2725-2733 (2022)


186.
[175] Mosaic Growth Induced Magnetic Anisotropy in Double Perovskite PrBaCo2O5+δ Thin Films

Wu, J.#; Guzman, R.#; Bao, S.; Zhang, Y.; Chen, Y.; Shen, S.; Yu, P.; Nan, C.-W.; Zhou, W.*; Chen, C.*; Ma, J.*

Acta Materialia 234, 118040 (2022)


185.
[174] Electron Energy Loss Spectroscopy for Single Atom Catalysis

Gao, Z.#; Li, A.#; Ma, D.*; Zhou, W.*

Topics in Catalysis 65, 1609–1619 (2022)


184.
[173] Dimensional Crossover in Self-intercalated Antiferromagnetic V5S8 Nanoflakes

Zhou, Z. #; Zhao, X. #; Wu, L.; Liu, H.; Chen, J.; Xi, C.; Wang, Z.; Liu, E.; Zhou, W. *; Pennycook, S. J.; Pantelides, S. T.; Zhang, X.-G. *; Bao, L. *; Gao, H.-J.

Physical Review B 105, 235433 (2022)


183.

[172] Insight into the Activity of Atomically Dispersed Cu Catalysts for Semihydrogenation of Acetylene: Impact of Coordination Environments

Huang, F.; Peng, M.; Chen, Y.; Gao, Z.; Cai, X.; Xie, J.; Xiao, D.; Jin, L.; Wang, G.; Wen, X.; Wang, N.; Zhou, W.; Liu, H.*; Ma, D.*

ACS Catalysis 12, 48-57 (2022)


182.
[171] Bendable Polycrystalline and Magnetic CoFe2O4 Membranes by Chemical Methods

Salles, P.; Guzmán, R.; Zanders, D.; Quintana, A.; Fina, I.; Sánchez, F.; Zhou, W.; Devi, A.; Coll, M.

ACS Applied Materials & Interfaces 14, 12845-12854 (2022)


181.
[170] MgO Intercalation and Crystallization between Epitaxial Graphene and Ru(0001)

Wang, X.Y.; Guo, H.; Shi, J.A.; Biao, Y.; Li, Y.; Han, G.-Y.; Zhang, S.; Qian, K.; Zhou, W.; Lin, X.; Du, S.X.; Shen, C.M.; Lu, H.L.*; Gao, H.J.

Rare Metals 41, 304–310 (2022)


180.
[169] Exchange Bias Effects in Ferromagnetic MnSb2Te4 down to a Monolayer

Zang, Z.; Xi, M.; Tian, S.; Guzman, R.; Wang, T.; Zhou, W.; Lei, H. *; Huang, Y. *; Ye, Y. *

ACS Applied Electronic Materials 4, 3256-3262 (2022)


179.
[168] Modulated Structure and Hopping Transport Mechanism Involving a Defect-Induced Localization–Delocalization Transition in a Ca–Ce (La)–Nb–W–O System

Lin, Y.; Shi, J.; Zhou, W.; Cen, W.; Chang, A.; Zhang, B.*

Applied Physics Letters 120, 112106 (2022)


178.

[167] Charge Density Wave States in Phase-Engineered Monolayer VTe₂

Zhu, Z.-L.; Liu, Z.-L.; Wu, X.; Li, X.-Y.; Shi, J.-A.; Liu, C.; Qian, G.-J.; Zheng, Q.; Huang, L.; Lin, X.; Wang, J.-O.; Chen, H.; Zhou, W.; Sun, J.-T.; Wang, Y.-L.*; Gao, H.-J.*

Chinese Physics B 31, 077101 (2022)


177.
[166] Fabrication of a Honeycomb AuTe Monolayer with Dirac Nodal Line Fermions

Wang, Q.#; Zhang, J.; Huang, J.; Shi, J.; Zhang, S.; Guo, H.; Huang, L.; Ding, H.; Zhou, W.; Zhang, Y.-F.; Lin, X.; Du, S.; Gao, H.-J.

Chinese Physics B 32, 016102 (2022)


176.
[165] Accurate and Robust Calibration of the Uniform Affine Transformation Between Scan-Camera Coordinates for Atom-Resolved In-Focus 4D-STEM Datasets

Ning, S.; Xu, W.; Ma, Y.; Loh, L.; Pennycook, T. J.; Zhou, W.; Zhang, F.; Bosman, M.; Pennycook, S. J.; He, Q. *; Loh, N. D. *

Microscopy and Microanalysis 28, 622-632 (2022)


175.
[164] A Stable Low-Temperature H₂-Production Catalyst by Crowding Pt on α-MoC

Zhang, X.#; Zhang, M. T.#; Deng, Y. C.#; Xu, M. Q.#; Artiglia, L.; Wen, W.; Gao, R.; Chen, B. B.; Yao, S. Y.; Zhang, X. C.; Peng, M.; Yan, J.; Li, A. W.; Jiang, Z.; Gao, X. Y.; Cao, S. F.; Yang, C.; Kropf, A. J.; Shi, J. A.; Xie, J. L.; Bi, M. S.; Bokhoven, J. A.; Li, Y. W.; Wen, X. D.; Flytzani-Stephanopoulos, M.; Shi, C.*; Zhou, W.*; Ma, D.*

Nature 589, 396-401 (2021) 


174.
[163] Atomically Sharp Interface Enabled Ultrahigh-Speed Non-Volatile Memory Devices

Wu, L.#; Wang, A.#; Shi, J.#; Yan, J.#; Zhou, Z.; Bian, C.; Ma, J.; Ma, R.; Liu, H.; Chen, J.; Huang, Y.; Zhou, W.; Bao, L.*; Ouyang, M.*; Pennycook, S. J.; Pantelides, S. T.; Gao, H.-J.*

Nature Nanotechnology 16, 882-887 (2021)


173.
[162] Sub-10-nm Graphene Nanoribbons with Atomically Smooth Edges from Squashed Carbon Nanotubes

Chen, C.#*; Lin, Y.#; Zhou, W.#; Gong, M.; He, Z.; Shi, F.; Li, X.; Wu, J. Z.; Lam, K. T.; Wang, J. N.; Yang, F.; Zeng, Q.; Guo, J.; Gao, W.; Zuo, J.-M.; Liu, J.; Hong, G.; Antaris, A. L.; Lin, M.-C.; Mao, W. L.*; Dai, H.*

Nature Electronics 4, 653-663 (2021)


172.
[161] Anomalous Thickness-Dependence of Curie Temperature in Air-Stable Two-Dimensional Ferromagnetic 1T-CrTe₂ Grown by Chemical Vapor Deposition

Meng, L. J.#; Zhou, Z.#; Xu, M. Q.#;Yang, S. Q.#; Si, K. P.; Liu, L. X.; Wang, X. G.; Jiang, H. N.; Li, B. X.; Qin, P. X.; Zhang, P.; Wang, J. L.; Liu, Z. Q.; Tang, P. Z.; Ye, Y.*; Zhou, W.*; Bao, L. H.*; Gao, H. J.; Gong, Y. J.*

Nature Communications 12, 809 (2021)


171.
[160] Ferritin-Based Targeted Delivery of Arsenic to Diverse Leukaemia Types Confers Strong Anti-Leukaemia Therapeutic Effects

Wang, C.#; Zhang, W.#; He, Y.#; Gao, Z.; Liu, L.; Yu, S.; Hu, Y.; Wang, S.; Zhao, C.; Li, H.; Shi, J.; Zhou, W.; Li, F.; Yue, H.; Li, Y.*; Wei, W.*; Ma, G.*; Ma, D.*

Nature Nanotechnology 16, 1413-1423 (2021)


170.
[159] Synergizing Metal–Support Interactions and Spatial Confinement Boosts Dynamics of Atomic Nickel for Hydrogenations

Gu, J.#; Jian, M.#; Huang, L.#; Sun, Z.; Li, A.; Pan, Y.; Yang, J.; Wen, W.; Zhou, W.; Lin, Y.; Wang, H.-J.; Liu, X.; Wang, L.; Shi, X.; Huang, X.; Cao, L.; Chen, S.; Zheng, X.; Pan, H.; Zhu, J.; Wei, S.*; Li, W.X.*; Lu, J.*

Nature Nanotechnology 16,1141-1149 (2021)


169.
[158] Two Distinct Superconducting States Controlled by Orientations of Local Wrinkles in LiFeAs

Cao, L.#; Liu, W.#; Li, G.#*; Dai, G.; Zheng, Q.; Wang, Y.; Jiang, K.; Zhu, S.; Huang, L.; Kong, L.; Yang, F.; Wang, X.; Zhou, W.; Lin, X.; Hu, J.; Jin, C.; Ding, H.*; Gao, H.-J.*

Nature Communications 12, 6312 (2021)


168.
[157] Maximizing the Synergistic Effect of CoNi Catalyst on α-MoC for Robust Hydrogen Production

Ge, Y. Z.#; Qin, X. T.#; Li, A. W.#; Deng, Y. C.; Lin, L. L.; Zhang, M. T.; Yu, Q. L.; Li, S. W.; Peng, M.; Xu, Y.; Zhao, X. Y.; Xu, M. Q.; Zhou, W.*; Yao, S. Y.*; Ma, D.*

Journal of the American Chemical Society 143, 628-633 (2021) 


167.
[156] Atomically Dispersed Ni/α-MoC Catalyst for Hydrogen Production from Methanol/Water

Lin, L. L.#; Yu, Q. L.#; Peng, M.#; Li, A. W.#; Yao, S. Y.; Tian, S. H.; Liu, X.; Li, A.; Jiang, Z.; Gao, R.*; Han, X. D.; Li, Y. W.; Wen, X. D.; Zhou, W.*; Ma, D.*

Journal of the American Chemical Society 143, 309-317 (2021) 


166.
[155] Dynamic Behavior of Single-Atom Catalysts in Electrocatalysis: Identification of Cu-N3 as an Active Site for the Oxygen Reduction Reaction

Yang, J.#; Liu, W.#; Xu, M.#; Liu, X.; Qi, H.; Zhang, L.; Yang, X.*; Niu, S.; Zhou, D.; Liu, Y.; Su, Y.; Li, J.-F.*; Tian, Z.-Q.; Zhou, W.; Wang, A.*; Zhang, T.

Journal of the American Chemical Society 143, 14530-14539 (2021)


165.
[154] Alloying Nickel with Molybdenum Significantly Accelerates Alkaline Hydrogen Electrocatalysis

Wang, M.#; Yang, H.#; Shi, J. A.; Chen, Y. F.; Zhou, Y.; Wang, L. G.; Di, S. J.; Zhao, X.; Zhong, J.; Cheng, T.;Zhou, W.; Li, Y. G.*

Angewandte Chemie - International Edition 60, 5771-5777 (2021)


164.
[153] Non-Bonding Interaction of Neighboring Fe and Ni Single-Atom Pairs on MOF-Derived N-Doped Carbon for Enhanced CO2 Electroreduction

Jiao, L.; Zhu, J.; Zhang, Y.; Yang, W.; Zhou, S.; Li, A.; Xie, C.; Zheng, X.; Zhou, W.; Yu, S.-H.; Jiang, H.-L.*

Journal of the American Chemical Society 143, 19417-19424 (2021)


163.

[151] Boosting Activity and Stability of Metal Single-Atom Catalysts via Regulation of Coordination Number and Local Composition

Wang, L.#; Zhu, C.#; Xu, M.; Zhao, C.; Gu, J.; Cao, L.; Zhang, X.; Sun, Z.; Wei, S.; Zhou, W.; Li, W.-X.*; Lu, J.*

Journal of the American Chemical Society 143, 18854-18858 (2021)


162.
[150] Catalytic Amination of Polylactic Acid to Alanine

Tian, S.#; Jiao, Y.#; Gao, Z.; Xu, Y.; Fu, L.; Fu, H.; Zhou, W.; Hu, C.; Liu, G.; Wang, M.*; Ma, D.*

Journal of the American Chemical Society 143, 16358-16363 (2021)


161.

[149] Unveiling Atomic-Scale Moiré Features and Atomic Reconstructions in High-Angle Commensurately Twisted Transition Metal Dichalcogenide Homobilayers


Zhao, X. X.; Qiao, J. S.; Chan, S. M.; Li, J.; Dan, J. D.; Ning, S. C.; Zhou, W.; Quek, S. Y.*; Pennycook, S. J.*; Loh, K. P.*

Nano Letters 21, 3262-3270 (2021)



160.
[148] Diverse Spin-Polarized In-Gap States at Grain Boundaries of Rhenium Dichalcogenides Induced by Unsaturated Re–Re Bonding

Chen, X.; Lei, B.*; Zhu, Y.; Zhou, J.; Gao, M.; Liu, Z.; Ji, W.*; Zhou, W.*

ACS Materials Letters 3, 1513-1520 (2021)


159.

[147] Interfacial Intermixing and Its Impact on the Energy Band Structure in Interband Cascade Infrared Photodetectors

Chai, X.#; Guzman, R.#; Zhou, Y.*; Xu, Z.; Liang, Z.; Zhu, Y.; Zhou, W.*; Chen, J.*

ACS Applied Materials & Interfaces 13, 38553-38560 (2021)


158.
[146] Anisotropic Point Defects in Rhenium Diselenide Monolayers

Zhu, Y.#; Tao, L.#; Chen, X.; Ma, Y.; Ning, S.; Zhou, J.; Zhao, X.; Bosman, M.; Liu, Z.; Du, S.*; Pantelides, S. T.; Zhou, W.*

iScience 24, 103456 (2021)


157.
[145] Investigating Phase Transitions from Local Crystallographic Analysis Based on Statistical Learning of Atomic Environments in 2D MoS₂-ReS₂

Vasudevan, R. K.; Ziatdinov, M.; Sharma, V.; Oxley, M. P.; Vlcek, L.; Morozovska, A. N.; Eliseev, E. A.; Yang, S. Z.; Gong, Y. J.; Ajayan, P.; Zhou, W.; Chisholm, M. F.; Kalinin, S. V.*

Applied Physics Reviews 8, 011409 (2021)


156.
[144] Rational Design of Iron Single Atom Anchored on Nitrogen Doped Carbon as a High-Performance Electrocatalyst for All-Solid-State Flexible Zinc-Air Batteries

Chen, T.; Wu, J.; Zhu, C. Y.; Liu, Z.; Zhou, W.; Zhu, C.*; Guan, C.*; Fang, G. J.

Chemical Engineering Journal 405, 125956 (2021)


155.

[143] Thermodynamics of Order and Randomness in Dopant Distributions Inferred from Atomically Resolved Imaging.

Vlcek, L.*; Yang, S. Z.; Gong, Y. J.; Ajayan, P.; Zhou, W.; Chisholm, M. F.; Ziatdinov, M.; Vasudevan, R. K.*; Kalinin, S. V.*

npj Computational Materials 7, 42 (2021)





154.
[142] Facile Chemical Route to Prepare Water Soluble Epitaxial Sr3Al2O6 Sacrificial Layers for Free-Standing Oxides

Salles, P.; Caño, I.; Guzman, R.; Dore, C.; Mihi, A.; Zhou, W.; Coll, M. *

Advanced Materials Interfaces  8, 2001643 (2021)


153.
[141] Engineering Covalently Bonded 2D Layered Materials by Self-Intercalation

Zhao, X. X.#; Song, P.#; Wang, C. C.; Riis-Jensen, A. C.; Fu, W.; Deng, Y.; Wan, D. Y.; Kang, L. X.; Ning, S. C.; Dan, J. D.; Venkatesan, T.; Liu, Z.; Zhou, W.; Thygesen, K. S.; Luo, X.*; Pennycook, S. J.*; Loh, K. P.*

Nature 581, 171-177 (2020) 


152.
[140] Boosting Hydrogen Evolution on MoS₂ via Co-Confining Selenium in Surface and Cobalt in Inner Layer

Zheng, Z. L.#; Yu, L.#; Gao, M.; Chen, X. Y.; Zhou, W.; Ma, C.; Wu, L. H.; Zhu, J. F.; Meng, X. Y.; Hu, J. T.; Tu, Y. C.; Wu, S. S.; Mao, J.; Tian, Z. Q.; Deng, D. H.*

Nature Communications 11, 3315 (2020)


151.
[139] Enhanced Performance of In-Plane Transition Metal Dichalcogenides Monolayers by Configuring Local Atomic Structures

Zhou, Y.#; Zhang, J.#; Song, E. H.#; Lin, J. H.#; Zhou, J. D.; Suenaga, K.; Zhou, W.; Liu, Z.; Liu, J. J.*; Lou, J.*; Fan, H. J.*

Nature Communications 11, 2253 (2020)


150.
[138] Strain-Driven Growth of Ultra-Long Two-Dimensional Nano-Channels

Zhu, C.#; Yu, M. L.#; Zhou, J. D.#; He, Y. M.; Zeng, Q. S.; Deng, Y.; Guo, S. S.; Xu, M. Q.; Shi, J. A.; Zhou, W.; Sun, L. T.; Wang, L.; Hu, Z. L.; Zhang, Z. H.*; Guo, W. L.*; Liu, Z.*

Nature Communications 11, 772 (2020)


149.
[137] Selective Electrochemical Production of Hydrogen Peroxide at Zigzag Edges of Exfoliated Molybdenum Telluride Nanoflakes

Zhao, X; Wang, Y.; Da, Y. L.; Wang X. X.; Wang T. T.; Xu, M. Q.; He X. Y.; Zhou W.*; Li Y. F.*; Coleman J. N.; Li Y. G.*

National Science Review 7, 1360–1366 (2020)


148.
[136] Synthesis of Co-Doped MoS₂ Monolayers with Enhanced Valley Splitting

Zhou, J. D.; Lin, J. H.; Sims, H.; Jiang, C. Y.; Cong, C. X.; Brehm, J. A.; Zhang, Z. W.; Niu, L.; Chen, Y.; Zhou, Y.; Wang, Y. L.; Liu, F. C.; Zhu, C.; Yu, T.; Suenaga, K.; Mishra, R.; Pantelides, S. T.; Zhu, Z. G.*, Gao, W. B.*, Liu, Z.*, Zhou, W.*

Advanced Materials 32, 1906536 (2020) 


147.
[135] Air-Stable Monolayer Cu₂Se Exhibits a Purely Thermal Structural Phase Transition

Qian, K.#; Gao, L.#; Chen, X. Y.#; Li, H.#; Zhang, S.; Zhang, X. L.; Zhu, S. Y.; Yan, J. H.; Bao, D. L.; Cao, L.; Shi, J. A.; Lu, J. C.; Liu, C.; Wang, J.; Qian, T.; Ding, H.; Gu, L.; Zhou, W.; Zhang, Y. Y.; Lin, X.*; Du, S. X.*; Ouyang, M.; Pantelides, S. T.; Gao, H. J.*

Advanced Materials 32, 1908314 (2020)


146.
[134] Electroreduction of CO₂ to Formate on Copper Based Electrocatalyst at High Pressures with High Energy Conversion Efficiency

Li, J. C.#; Kuang, Y.#; Meng, Y. T.; Tian, X.; Hung, W. H.; Zhang, X.; Li, A. W.; Xu, M. Q.; Zhou, W.; Ku, C. S.; Chiang, C. Y.; Zhu, G. Z.; Guo, J. Y.; Sun, X. M.; Dai, H. J.*

Journal of the American Chemical Society 142, 7276-7282 (2020)


145.
[133] InSe/hBN/Graphite Heterostructure for High-Performance 2D Electronics and Flexible Electronics

Wu, L. M.#; Shi, J. A.#; Zhou, Z.; Yan, J. H.; Wang, A. W.; Bian, C.; Ma, J. J.; Ma, R. S.; Liu, H. T.; Chen, J. C.; Huang, Y.; Zhou, W.*; Bao, L. H.*; Ouyang, M.; Pantelides, S. T.; Gao, H. J.

Nano Research 13, 1127–1132 (2020)


144.
[132] Using Graphene to Suppress the Selenization of Pt for Controllable Fabrication of Monolayer PtSe₂

Liu, Z. L.; Zhu, Z. L.; Wu, X.; Shi, J. A.; Zhou, W.; Liu, L. W.; Wang, Y. L.*; Gao, H. J.*

Nano Research 13, 3212-3216 (2020)


143.
[131] Single-Atom Electron Microscopy for Energy-Related Nanomaterials 

Xu, M. Q.#; Li, A. W.#; Gao, M.#; Zhou, W.*

Journal of Materials Chemistry A 8, 16142-16165 (2020) 


142.
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ChemSusChem 13, 929-937 (2020)


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Chinese Physics B 29, 086801 (2020)


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ACS Catalysis 10, 907-913 (2020)


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Nature Nanotechnology 14, 354-361 (2019)


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Nature Communications 10, 2807 (2019)


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Advanced Materials 31, 1900237 (2019)


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Angewandte Chemie International Edition 58, 13466-13471 (2019)


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Nano Research 12, 1663-1667 (2019)


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Nano Letters 19, 8572-8580 (2019)


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Science Advances 4, eaap9096 (2018) 


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Nature Communications 9, 1545 (2018)


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Advanced Materials 30, 1707281 (2018)


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ACS Nano 12, 1940-1948 (2018)


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Nano Letters 18, 482-490 (2018)


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ACS Nano 12, 7562-7570 (2018)


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Chinese Physics B 27, 056804 (2018)


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Nature Materials 16, 717-721 (2017)


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Journal of the American Chemical Society 139, 10133-10141 (2017) 


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Journal of the American Chemical Society 139, 9392-9400 (2017)


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Journal of the American Chemical Society 139, 2267-2276 (2017)


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Journal of the American Chemical Society 139, 14090-14097 (2017)


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Journal of the American Chemical Society 139, 2504-2511 (2017)


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Journal of the American Chemical Society 139, 1073-1076 (2017)


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[62] Chemical Vapor Deposition of High-Quality Large-Sized MoS2 Crystals on Silicon Dioxide Substrates

Chen, J. Y.; Tang, W.; Tian, B. B.; Liu, B.; Zhao, X. X.; Liu, Y. P.; Ren, T. H.; Liu, W.; Geng, D. C.; Jeong, H. Y.; Shin, H. S.; Zhou, W.; Loh, K. P.*

Advanced Science 3, 1600033 (2016)


73.
[61] Lateral Epitaxy of Atomically Sharp WSe2/WS2 Heterojunctions on Silicon Dioxide Substrates

Chen, J. Y.; Zhou, W.; Tang, W.; Tian, B. B.; Zhao, X. X.; Xu, H.; Liu, Y. P.; Geng, D. C.; Tan, S. J. R.; Fu, W.; Loh, K. P.*

Chemistry of Materials 28, 7194-7197 (2016)


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[60] Signatures of Distinct Impurity Configurations in Atomic-Resolution Valence Electron-Energy-Loss Spectroscopy: Application to Graphene

Kapetanakis, M. D.*; Oxley, M. P.*; Zhou, W.; Pennycook, S. J.; Idrobo, J. C.; Pantelides, S. T.

Physics Review B 94, 155449 (2016)


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[59] The Observation of Square Ice in Graphene Questioned

Zhou, W.*; Yin, K. B.; Wang, C. H.; Zhang, Y. Y.; Xu, T.; Borisevich, A.; Sun, L. T.; Idrobo, J. C.; Chisholm, M.; Pantelides, S. T.; Klie, R. F.; Lupini, A. R., .R.

Nature 528, E1-E2 (2015)


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[58] Blending Cr₂O₃ into a NiO-Ni Electrocatalyst for Sustained Water Splitting

Gong, M.#; Zhou, W.#; Kenney M. J.#; Kapusta, R.; Cowley, S.; Wu, Y. P.; Lu, B. A.; Lin, M.C.; Wang, D.Y.; Yang, J.; Hwang, B.J.; Dai, H. J.*

Angewandte Chemie International Edition 54, 11989-11993 (2015) 


69.
[57] Controlled Synthesis of Organic/Inorganic van der Waals Solid for Tunable Light–Matter Interactions

Niu, L.#; Liu, X. F.#; Cong, C. X.#; Wu, C. Y.#; Wu, D.; Chang, T. R.; Wang, H.; Zeng, Q. S.; Zhou J. D.; Wang, X. L.; Fu, W.; Yu, P.; Fu, Q. D.; Najmaei, S.; Zhang, Z. H.; Yakobson, B.I.; Tay, B.K.; Zhou, Wu.; Jeng, H.T.; Lin, H.; Sum, T.C.; Jin, C. H.; He, H. Y.*; Yu, T.*; Liu, Z.*

Advanced Materials 27, 7800-7808 (2015)


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[56] Chemical Vapor Deposition of Monolayer Rhenium Disulfide (ReS₂)

Keyshar, K.; Gong, Y. J.; Ye, G. L.; Brunetto, G.; Zhou, W.; Cole, D.P.; Hackenberg, K.; He, Y. M.; Machado, L.; Kabbani, M.; Hart, A.H.C.; Li, B.; Galvao, D.S.; George, A.; Vajtai, R.; Tiwary, C.S.*; Ajayan, P.M.*

Advanced Materials 27, 4640-4648 (2015)




67.
[55] Rapid and Nondestructive Identification of Polytypism and Stacking Sequences in Few-Layer Molybdenum Diselenide by Raman Spectroscopy

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Advanced Materials 27, 4502-4508 (2015) 


66.
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Lin, J. H.; Pantelides, S.T.; Zhou, W.*

ACS Nano 9, 5189-5197 (2015)


65.
[53] Two-Step Growth of Two-Dimensional WSe₂/MoSe₂ Heterostructures

Gong, Y. J.#; Lei, S. D.#; Ye, G. L.; Li, B.; He, Y. M.; Keyshar, K.; Zhang, X.; Wang, Q. Z.; Lou, J.; Liu, Z.; Vajtai, R.; Zhou, W.*; Ajayan, P.M.*

 Nano Letters 15, 6135-6141 (2015) 


64.
[52] Recent Advances in Two-Dimensional Materials beyond Graphene

Bhimanapati, G.R.; Lin, Z.; Meunier, V. Jung, Y. W.; Cha, J. Das, S. Xiao, D. Son, Y. W.; Strano, M. S.; Cooper, V. R.; Liang, L. B.; Louie, S. G.; Ringe, E.; Zhou, W.; Kim, S. S.; Naik, R. R.; Sumpter, B. G.; Terrones, H.; Xia, F. N.; Wang, Y. L.; Zhu, J.; Akinwande, D.; Alem, N.; Schuller, J. A.; Schaak, R. E.; Terrones, M.; Robinson, J. A.*

ACS Nano 9, 11509-11539 (2015)


63.
[51] Controlled Formation of Mixed Nanoscale Domains of High Capacity Fe₂O₃-FeF₃ Conversion Compounds by Direct Fluorination

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ACS Nano 9, 2530-2539 (2015)


62.
[50] Spectroscopic Signatures of AA’ and AB Stacking of Chemical Vapor Deposited Bilayer MoS₂

Xia, M.; Li, B.; Yin, K. B.; Capellini, G.; Niu, G.; Gong, Y. J.; Zhou, W.; Ajayan, P. M.; Xie, Y. H.*

ACS Nano 9, 12246-12254 (2015) 


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Yan, J. X.; Xia, J.; Wang, X. L.; Liu, L.; Kuo, J. L.; Tay, B. K.; Chen, S. S.; Zhou, W.; Liu, Z.; Shen, Z. X.*

Nano Letters 15, 8155-8161 (2015)


60.
[48] 3D Band Diagram and Photoexcitation of 2D-3D Semiconductor Heterojunctions

Li, B.#; Shi, G.#; Lei, S. D.#; He, Y. M.; Gao, W. L; Gong, Y. J.; Ye, G. L.; Zhou, W.; Keyshar, K.; Hao, J.; Dong, P.; Ge, L. H.; Lou, J.; Kono, J.*; Vajtai, R.*; Ajayan, P. M.*

Nano Letters 15, 5919-5925 (2015) 


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[47] Band Engineering for Novel Two-Dimensional Atomic Layers

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Small 11, 1868-1884 (2015)  


58.
[46] Boron- and Nitrogen-Substituted Graphene Nanoribbons as Efficient Catalysts for Oxygen Reduction Reaction

Gong, Y. J.#; Fei, H. L.#; Zou, X. L.#; Zhou, W.; Yang, S. B.*; Ye, G. L.; Liu, Z.; Peng, Z. W.; Lou, J.; Vajtai, R.; Yakobson, B.; Tour, J. M.*; Ajayan, P. M.*

Chemistry of Materials 27, 1181-1186 (2015)  


57.
[45] Insights into the Physical Chemistry of Materials from Advances in HAADF-STEM

Sohlberg, K.; Pennycook, T. J.; Zhou, W.; Pennycook, S. J.*

Physical Chemistry Chemical Physics 17, 3982-4006 (2015)  


56.
[44] Low-Loss Electron Energy Loss Spectroscopy: An Atomic-Resolution Complement to Optical Spectroscopies and Application to Graphene

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 Physical Review B 92, 125147 (2015) 


55.
[43] Vertical and In-Plane Heterostructures from WS₂/MoS₂ Monolayers

Gong, Y.#; Lin, J.#; Wang, X.#; Shi, G.; Lei, S.; Lin, Z.; Zou, X.; Ye, G.; Vajtai, R.; Yakobson, B.I.; Terrones, H.; Terrones, M.; Tay, B.K.; Lou, J.; Pantelides, S.T.; Liu, Z.; Zhou, W.*; Ajayan, P.M.*

Nature Materials 13, 1135-1142 (2014) 


54.
[42] Flexible Metallic Nanowires with Self-Adaptive Contacts to Semiconducting Transition-Metal Dichalcogenide Monolayers

Lin, J.*; Cretu, O.; Zhou, W.*; Suenaga, K.; Prasai, D.; Bolotin, K. I.; Cuong, N. T.; Otani, M.; Okada, S.; Lupini, A. R.; Idrobo, J.-C.; Caudel, D.; Burger, A.; Ghimire, N. J.; Yan, J.; Mandrus, D. G.; Pennycook, S. J.; Pantelides, S. T., 

Nature Nanotechnology 9, 436-442 (2014)  


53.
[41] Interlaced Crystals Having a Perfect Bravais Lattice and Complex Chemical Order Revealed by Real-Space Crystallography

Shen, X.#,*; Hernandez-Pagan, E. A.#; Zhou, W.#,*; Idrobo, J. C.; MacDonald, J.; Pennycook, S. J.; Pantelides, S. T.

Nature Communications 5, 5431 (2014) 


52.
[40] Nanoscale Nickel Oxide/Nickel Heterostructures for Active Hydrogen Evolution Electrocatalysis

Gong, M.#; Zhou, W.#; Tsai, M.; Zhou, J.; Guan, M.; Lin, M.; Zhang, B.; Hu, Y.; Wang, D.; Yang, J.; Pennycook, S. J.; Hwang, B.; Dai, H.*

Nature Communications 5, 4695 (2014)  


51.
[39] Strain and Structure Heterogeneity in MoS₂ Atomic Layers Grown by Chemical Vapor Deposition

Liu, Z.#; Amani, M.#; Najmaei, S.#; Xu, Q.; Zou, X.; Zhou, W.; Yu, T.; Qiu, C.; Birdwell, A.G.; Crowne, F.J.; Vajtai, R.; Yakobson, B.I.; Xia, Z.; Dubey, M*.; Ajayan, P.M.*; Lou, J.*

Nature Communications 5, 5246 (2014)  


50.
[38] Direct Chemical Conversion of Graphene to Boron- and Nitrogen- and Carbon-Containing Atomic Layers

Gong, Y.#; Shi, G.#; Zhang, Z.#; Zhou, W.; Jung, J.; Gao, W.; Ma, L.; Yang, Y.; Yang, S.; You, G.; Vajtai, R.; Xu, Q.; MacDonald, A.H.; Yakobson, B.I.; Lou. J.; Liu, Z.*; Ajayan, P.M.

Nature Communications 5, 3193 (2014)  


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[37] Stabilization of Graphene Nanopore

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Proceedings of the National Academy of Sciences 111, 7522-7526 (2014)


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Advanced Materials 26, 6193-6198 (2014)   


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[35] Facet-Dependent Disorder in Pristine High-Voltage Lithium-Manganese-Rich Cathode Material

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ACS Nano 8, 12710-12716 (2014)  


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Nano Letters 14, 442-449 (2014)  


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Lu, X.#; Utama, M.I.B.#; Lin, J.; Gong, X.; Zhang, J.; Zhao, Y.; Pantelides, S.T.; Wang, J.; Dong, Z.; Liu, Z.; Zhou, W.; Xiong, Q.*

Nano Letters 14, 2419-2425 (2014)  


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[32] Ultrafast High-Capacity NiZn Battery with NiAlCo-Layered Double Hydroxide

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Energy & Environmental Science 7, 2025-2032 (2014)  


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Nanoscale 6, 12250-12272 (2014) 


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Journal of Physical Chemistry Letters 5, 1711-1718 (2014)  


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Nature Materials 12, 754–759 (2013) 


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[28] Direct Visualization of Reversible Dynamics in a Si6 Cluster Embedded in a Graphene Pore

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Nature Communications 4, 1650 (2013)


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[27] In-Plane Heterostructures of Graphene and Hexagonal Boron Nitride with Controlled Domain Sizes

Liu, Z.; Ma, L.; Gang, S.; Zhou, W.; Gong, Y.; Lei, S.; Yang, X.; Zhang, J.; Yu, J.; Hackenberg, K. P.; Babakhani, A.; Idrobo, J. C.; Vajtai, R.; Lou, J.*; Ajayan, P. M.*

Nature Nanotechnology 8, 119–124 (2013) 


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Liu, Z.#; Gong, Y.#; Zhou, W.; Ma, L.; Yu, J.; Idrobo, J.C.; Jung, J.; MacDonald, A.H.; Vajtai, R.; Lou, J.*; Ajayan, P. M.*

Nature Communications 4, 2541 (2013) 


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[25] Platinum-Modulated Cobalt Nanocatalysts for Low-Temperature Aqueous-Phase Fischer-Tropsch Synthesis

Wang, H.#; Zhou, W.#; Liu, J.#; Si, R.; Sun, G.; Zhong, M.; Su, H.; Zhao, H.; Rodriguez, J.A.; Pennycook, S. J.; Idrobo, J. C.; Li, W.*; Kou, Y.*; Ma, D.*

Journal of the American Chemical Society 135, 4149–4158 (2013) 


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[24] AC/AB Stacking Boundaries in Bilayer Graphene

Lin, J.; Fang, W.; Zhou, W.*; Lupini, A.R.; Idrobo, J.C.; Kong, J.; Pennycook, S.J.; Pantelides, S.T.

Nano Letters 13, 3262–3268(2013) 


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[23] Intrinsic Structural Defects in Monolayer Molybdenum Disulfide

Zhou, W.*; Zou, X.; Najmaei, S.; Liu, Z.; Shi, Y.; Kong, J.; Lou, J.; Ajayan, P. M.; Yakobson, B. I.; Idrobo, J. C.

Nano Letters 13, 2615–2622 (2013) 


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[22] Long-Range Ferromagnetic Ordering in Manganese-Doped Two-Dimensional Dichalcogenides

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Physical Review B 88, 144409 (2013)


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[21] Atomically Localized Plasmon Enhancement in Monolayer Graphene

Zhou, W.*; Lee, J.; Nanda, J.; Pantelides, S. T.; Pennycook, S. J.; Idrobo, J. C.*

Nature Nanotechnology 7, 161-165 (2012) 


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[20] An Oxygen Reduction Electrocatalyst Based on Carbon Nanotube-Graphene Complexes

Li, Y.; Zhou, W.; Wang, H.; Xie, L.; Liang, Y; Wei, F.; Idrobo, J.C.; Pennycook, S. J.; Dai, H.*

Nature Nanotechnology 7, 394-400 (2012) 


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[19] Direct Determination of the Chemical Bonding of Individual Impurities in Graphene

Zhou, W.*; Kapetanakis, M.; Prange, M. P.; Pantelides, S. T.; Pennycook, S. J.; Idrobo, J. C.*

Physical Review Letters 109, 206803 (2012) 


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[18] van der Waals Epitaxy of MoS₂ Layers Using Graphene As Growth Templates

Shi, Y.#; Zhou, W.#; Lu, A.; Fang, W.; Lee, Y.; Hsu, A.L.; Kim, S.M.; Kim, K.K.; Yang, H.Y.; Li, L.; Idrobo, J.C.; Kong, J.*

Nano Letters 12, 2784-2791 (2012) 


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Zhou, W.*; Wachs, I. E.; Kiely, C. J.*

Current Opinion in Solid State & Materials Science 16, 10-22 (2012)


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[16] Single Atom Microscopy

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Microscopy and Microanalysis 18, 1342-1354 (2012)  


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Zhou, W.*; Pennycook, S. J.; Idrobo, J. C.*

Ultramicroscopy 119, 51-56 (2012)  


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[14] Probing the Electronic Structure and Optical Response of a Graphene Quantum Disk Supported on Monolayer Graphene

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Journal of Physics: Condensed Matter 24 (31), 314213 (2012)


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Journal of Catalysis 285, 103-114 (2012)


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[12] Supported Pd–Cu Bimetallic Nanoparticles That Have High Activity for the Electrochemical Oxidation of Methanol

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Chemistry—A European Journal 18, 4887-4893 (2012)


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[11] Solvothermal Synthesis of Ultrasmall Tungsten Oxide Nanoparticles

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Langmuir 28, 17771-17777 (2012) 


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[10] Reactivity of Ga₂O₃ Clusters on Zeolite ZSM-5 for the Conversion of Methanol to Aromatics

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Catalysis Letters 142, 1049-1056 (2012) 


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[9] Viral Capsid Type Vesicle-Like Structures Assembled from M₁₂L₂₄ Metal-Organic Hybrid Nanocages

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Angewandte Chemie International Edition 50, 5182 –5187 (2011)


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[8] Vacancy-Driven Anisotropic Defect Distribution in the Battery-Cathode Material LiFePO₄

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Physical Review Letters 107, 085507 (2011)


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[7] Aberration-Corrected Analytical Microscopy Characterization of Double-Supported WO3/TiO2/SiO2 Solid Acid Catalysts

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ChemCatChem 3, 1045-1050 (2011)


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[6] Catalysis Science of Methanol Oxidation over Iron Vanadate Catalysts: Nature of the Catalytic Active Sites

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ACS Catalysis 1, 54–66 (2011)


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[5] Relating n-Pentane Isomerization Activity to the Tungsten Surface Density of WOx/ZrO₂

Soultanidis, N.; Zhou, W.; Psarras, A. C.; Gonzalez, A. J.; Iliopoulou, E. F.; Kiely, C. J.; Wachs, I. E.; Wong, M. S.*

Journal of the American Chemical Society 132, 13462–13471 (2010)


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[4] Origin of the Synergistic Interaction between MoO3 and Iron Molybdate for the Selective Oxidation of Methanol to Formaldehyde

Routray, K.; Zhou, W.; Kiely, C. J.; Grünert, W.; Wachs, I. E.*

Journal of Catalysis 275, 84-98 (2010)


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[3] Identification of Active Zr-WOx Clusters on a ZrO₂ Support for Solid Acid Catalysts

Zhou, W.#; Ross-Medgaarden, E. I.; Knowles, W. V.; Wong, M. S.; Wachs, I. E.; Kiely, C. J.*

Nature Chemistry 1, 722–728(2009)


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[2] Diameter Dependence of Modulus in Zinc Oxide Nanowires and the Effect of Loading Mode: In Situ Experiments and Universal Core-Shell Approach

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Applied Physics Letters 95, 091912 (2009)


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Journal of Catalysis 256, 108-125 (2008)


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