66 “Potassium Ion Batteries with Graphitic Materials” Luo, J. Wan, B. Ozdemir, W. Bao, Y. Chen, J. Dai, H. Lin, Y. Xu, F. Gu, V. Barone, L. Hu. Nano letters 15
(11), 7671-7677 (2015)
65 “Electronic transport properties of Ir-decorated graphene” Wang, S. Xiao, X. Cai, W. Bao, J. Reutt-Robey, M.S. Fuhrer. Scientific reports 5, 15764 (2015)
64 The positive piezoconductive effect in graphene Xu K, Wang K, Zhao W, Bao W, et al. Nature Communications, (2015).
63 “Improving Graphene Conductivity through Selective Atomic Layer Deposition” Liu, X. Han, W. Bao, A.J. Pearse, L. Hu, G.W. Rubloff. ECS Transactions 69
(7), 133-138 (2015)
62 “Tunneling Plasmonics in Bilayer Graphene” Fei, E. Iwinski, G. Ni, L. Zhang, W. Bao, A. Rodin, Y. Lee, M. Wagner, M. Liu, S. Dai, M. Goldflam, M. Thiemens,
F. Keilmann, C.N. Lau, A.H. Castro-Neto, M. Fogler, D.N. Basov. Nano letters 15 (8), 4973-4978 (2015)
61 “Infrared Pump-Probe Spectroscopy of Plasmons in Graphene and Semiconductors” Wagner, Z. Fei, A. McLeod, S. Maddox, A. Rodin, W. Bao, E. Iwinski,
Z. Zhao, M. Goldflam, M. Liu, G. Dominguez, M. Thiemens, M. Fogler, A. Castro-Neto, C.N. Lau, S. Amarie, F. Keilmann, S. Bank, R. Averitt, D. Basov.
Microscopy and Microanalysis, 21 (S3), 1415-1416 (2015)
60 Sodium-ion Intercalated Transparent Conductors with Printed Reduced Graphene Oxide Networks Wan, J. ; Gu, F. ; Bao, W. ; Dai, J. ; Shen, F. ; Luo, W. ;
Han, X. ; Urban, D. ; Hu, L.*, Nano Letter,(2015)
59 In situ Investigations of Li-MoS2 With Planar Batteries J. Wan*, W. Bao*, Y. Liu , J. Dai, F. Shen, L. Zhou, X. Cai, D. Urban, Y. Li, K. Jungjohann, M. S.
Fuhrer, L. Hu. Advanced Energy Materials, (2014). Link
58 Electronic transport properties of Ir-decorated graphene Yilin Wang, Shudong Xiao, Xinghan Cai, Wenzhong Bao, Janice Reutt-Robey, Michael S
Fuhrer Scientific Reports, 5, 15764 (2015)
57 Self-formed conductive nanofilaments in (Bi, Mn) Ox for ultralow-power memory devicesF. Kang, W. Kuo, W. Bao, C. H. Ho, C. W. Huang, W. W. Wu,
Y. Chu, J. Juang, S. Tseng, L. Hu and J.H. He, Nano Energy, 13, 283-290 (2015).
56 Atomic Force Microscopy Studies on Molybdenum Disulfide Flakes as Sodium-Ion Anodes D. Lacey, J. Wan, A. Cresce, S. M. Russell, J. Dai, W. Bao, K. Xu,
and L. Hu, Nano letters 15 (2), 1018-1024 (2014).
55 Aqueous Gating of van der Waals Materials on Bilayer Nanopaper W. Bao , Z. Fang , J. Wan , J. Dai , H. Zhu , X. Han , X.Yang , C. Preston , and
L. Hu. ACSNano, 8, 10606 (2014). Link
54 Lightweight, conductive hollow Fibers from nature as sustainable electrode Materials for microbial energy Harvesting H. Zhu, H. Wang, Y. Li, W. Bao,
Z. Fang, C. Preston, Z. Barcikowski, O. Vaaland, Z. Ren and L. Hu, Nano Energy, 10, 268-276 (2014). Link
53 Highly transparent paper with tunable haze for green electronics Z. Fang*, H. Zhu*, W. Bao*, C. Preston, Z. Liu, J. Dai, Y. Li and L. Hu, Energy
& Environmental Science, 7, 3313 (2014). Link
52 Approaching the limits of transparency and conductivity in graphitic materials through lithium intercalation” W. Bao, J. Wan, X. Han, X. Cai, H. Zhu,
D. Kim, Y. Xu, J. Munday, H.D. Drew, M. S. Fuhrer, L. Hu, Nature Communications, 5, 4224 (2014). Link
51 Transport in suspended monolayer and bilayer graphene under strain: A new platform for material studies H. Zhang, J. Huang, J. Velasco, K. Myhro,
M. Maldonado, D. Tran, Z. Zhao, F. Wang, Y. Lee, G. Liu, W. Bao and C.N. Lau,Carbon, 69, 336–341 (2014). Link
50 Ultrafast and Nanoscale Plasmonic Phenomena in Exfoliated Graphene Revealed by Infrared Pump Probe Nanoscopy M. Wagner, Z. Fei, A. McLeod,
A. Rodin, W. Bao, E. Iwinski, Z. Zhao, M. Goldflam, M. Liu, G. Dominguez , M. Thiemens , M. Fogler, A. Castro Neto, C. Lau, S. Amarie, F. Keilmann, and
D. Basov, Nano Lett., 14 (2), 894–900 (2014). Link
49 Electrical detection of CF3Cl phase transitions on graphene Y. Wang, W. Bao, S. Xiao, M. S. Fuhrer and J. Reutt-Robey, Applied Physics Letters, 103,
201606 (2013).
48 Thermal Conductivity of Suspended Few-layer Graphene by a Modified T Bridge Method W. Jang, W. Bao, L. Jing, C. N. Lau, and C. Dames, Applied
Physics Letters, 103, 133102 (2013). Link
47 Thin-film barristor: A gate-tunable vertical graphene-pentacene device C. Ojeda-Aristizabal, W. Bao, and M. S. Fuhrer, Phys. Rev. B, 88, 035435
(2013). Link
46 “Broken Symmetry Quantum Hall States in Dual-Gated ABA Trilayer Graphene” Y. Lee, J. Velasco, Jr, D. Tran, F. Zhang , W. Bao, L. Jing, K. Myhro,
D. Smirnov, and C.N. Lau, Nano Lett., 13, 1627 (2013). Link
45 “High Mobility Ambipolar MoS2 Field-Effect Transistors: Substrate and Dielectric Effects”, W. Bao, X. Cai, D. Kim, K. Sridhara and M. S. Fuhrer, Applied
Physics Letters, 102, 042104 (2013). Link
•APL’s “Top 20 Most Read Articles” (ranked 1st) in Feb. 2013. Reported by nanotechweb.org.
44 “In Situ Observation of Electrostatic and Thermal Manipulation of Suspended Graphene Membranes”, W. Bao, K. Myhro, Z. Zhao, C. Chen, W. Jang, L. Jing,
F. Miao, H. Zhang, C. Dames and C. N. Lau, Nano Lett., 12, 5470 (2012). Link
43 “Gate-tuning of graphene plasmons revealed by infrared nano-imaging”, Z. Fei, A.S. Rodin, G.O. Andreev, W. Bao, A.S. McLeod, M. Wagner, M. Zhang,
Z. Zhao, M. Thiemens, G. Dominguez, M.M. Fogler, A.H. Castro Neto, C. N. Lau, F. Kellmann, D.N. Basov, Nature, 487, 82 (2012). Link
• Reported by physicsworld.com, sciencedaily.com, etc.Highlighted by Nature Physics News and Views
42 “Properties of Suspended Graphene Membranes”, C.N. Lau, W. Bao, J. Velasco Jr., Materials Today, 15, 238 (2012). Link
• Invited Review
41 “Evidence for a Spontaneous Gapped State in Ultra-Clean Bilayer Graphene” W. Bao, J. Velasco Jr., F. Zhang, L. Jing, B. Standley, D. Smirnov, M. Bockrath,
A. MacDonald and C. N. Lau, , Proc. Nat. Acad. Sci., 109, 10802 (2012). Link
40 “Quantum transport in double-gated graphene devices” J. Velasco Jr., Y. Lee, L. Jing, G. Liu, W. Bao, and C. N. Lau, Sol. State Commun., 152, 1301
(2012). Link
39 “Visualizing Electrical Breakdown and ON/OFF States in Electrically Switchable Suspended Graphene Break Junctions” H. Zhang*, W. Bao*, Z. Zhao,
J.-W. Huang, B. Standley, G. Liu, F. Wang, P. Kratz, Lei Jing, M. Bockrath, and C.N. Lau, Nano Lett., 12, 1772 (2012). Link
38 “Raman spectroscopy of substrate-induced compression and substrate doping in thermally cycled graphene”, C.C. Chen, W.Z. Bao, C.C. Chang, Z. Zhao,
C.N. Lau, S.B. Cronin, Phys. Rev. B, 85, 035431 (2012). Link
37 “Transport Spectroscopy of Symmetry-Broken Insulating States in Bilayer Graphene” J. Velasco Jr., L. Jing, W. Bao, Y. Lee, V. Aji, M. Bockrath, C.N. Lau,
C. Varma, R. Stillwell , D. Smirnov, Fan Zhang, and A. MacDonald. Nature Nanotechnology, 7, 156 (2012). Link
• Reported by sciencedaily.com, NSF News etc.
36 Stacking-Dependent Band Gap and Quantum Transport in Trilayer Graphene W. Bao, L. Jing, Y. Lee, J. Velasco Jr., P. Kratz, D. Tran, B. Standley,
D. Smirnov, M.Aykol, S. Cronin, E. McCann, M. Koshino, M. Bockrath, and C.N. Lau, Nature Physics 7, 948 (2011) Link
• Reported by sciencenews.org,spectroscopynow.com, NSF News, etc. Highlighted by Nature Physics News and Views.
35 Infrared Nanoscopy of Dirac Plasmons at the Graphene-SiO2 interface Z. Fei, G. O. Andreev, W. Bao, L. M. Zhang, A. S. McLeod, C. Wang, M. K. Stewart,
Z. Zhao, G. Dominguez, M. Thiemens, M. M. Fogler, M. J. Tauber, A. H. Castro-Neto, C. N. Lau, F. Keilmann, and D. N. Basov, Nano Letters 11(11),
4701-4705 (2011) Link
34 Aryl Functionalization as a Route to Band Gap Engineering in Single Layer Graphene Devices H. Zhang, E. Bekyarova, J.-W. Huang, Z. Zhao, W. Bao,
F. Wang, R. C. Haddon and C. N. Lau, Nano Letters 11, 4047 (2011) Link
33 Suspension and measurement of graphene and Bi(2)Se(3) thin crystals Velasco, J; Zhao, Z; Zhang, H; Wang, FL; Wang, ZY; Kratz, P; Jing, L; Bao, W;
Shi, J; Lau, CN, Nanotechnology 22 (28), 285305 (2011) Link
• Selected for Nanotechnology cover
32 Graphene-based quantum Hall effect infrared photodetector operating at liquid Nitrogen temperatures Kalugin, NG; Jing, L; Bao, WZ; Wickey, L;
Del Barga, C; Ovezmyradov, M; Shaner, EA; Lau, CN, Applied Physics Letters 99 (1), 013504 (2011) Link
31 Wrinkling hierarchy in constrained thin sheets from suspended graphene to curtains Hugues Vandeparre, Miguel Pineirua, Fabian Brau, Benoit Roman,
Jose Bico, Cyprien Gay, Wenzhong Bao, Chun Ning Lau, Pedro M. Reis, Pascal Damman, Physics Review Letters 106 (22), 224301 (2011) Link
• Reported by physicsworld.com, etc. • Selected for PRL cover and Editor’s Suggestion. Highlighted by APS Synopses.
30 Imaging charge density fluctuations in graphene using Coulomb blockade spectroscopy A. Deshpande, W. Bao, Z. Zhao, C.N. Lau, and B.J. LeRoy,
Physics Review B 3 (15), 155409 (2011) Link
29 Spatial mapping of the Dirac point in monolayer and bilayer grapheme A. Deshpande, W. Bao, Z. Zhao, C.N. Lau, and B.J. LeRoy, IEEE Transactions
on Nanotechnology 10, 88-91 (2011) Link
28 Magnetoconductance Oscillations in High-Mobility Suspended Bilayer and Trilayer Graphene Wenzhong Bao, Zeng Zhao, Hang Zhang, Gang Liu,
Philip Kratz, Lei Jing, Jairo Velasco Jr, Dmitry Smirnov, Chun Ning Lau, Physics Review Letters 105, 246601 (2010) Link
27 Thickness-Dependent Thermal Conductivity of Encased Graphene and Ultrathin Graphite Jang, Wanyoung; Chen, Zhen; Bao, Wenzhong; Lau, Chunning;
Dames, Chris, Nano Letters 10 (10), 3909–3913 (2010) Link
26 Quantum Transport and Field Induced Insulating States in Bilayer Graphene pnp Junctions Jing, Lei; Velasco, Jairo; Kratz, Philip; Liu, Gang;
Bao, Wenzhong; Bockrath, Marc; Lau, Chunning, Nano Letters 10 (10), 4000–4004 (2010) Link
25 Dimensional crossover of thermal transport in few-layer graphene S. Ghosh, W. Bao, D. L. Nika, S. Subrina, E. P. Pokatilov, C. N. Lau and A.A. Balandin,
Nature Materials 9, 555–558 (2010) Link
Reported by news.discovery.com, NSF News and physicsworld.com, etc.
24 Effect of Cluster Formation on Graphene Mobility K. M. McCreary, K. Pi, Adrian Swartz, Wei Han, W. Bao, C. N. Lau, F. Guinea, M. I. Katsnelson,
R. K. Kawakami, Physics Review B 81, 115453 (2010) Link
23 Probing charging and localization in the quantum Hall regime by graphene p-n-p junctions Jairo Velasco Jr., Gang Liu, Lei Jing, Philip Kratz, Hang Zhang,
Wenzhong Bao, Marc Bockrath, and Chun Ning Lau, Physics Review B 81, 121407 (2010) Link
22 Lithography-free Fabrication of High Mobility Substrate-supported and Suspended Graphene devices Wenzhong Bao, Gang Liu, Zeng Zhao, Hang Zhang,
Dong Yan, Aparna Deshpande, Brian LeRoy and Chun Ning Lau, Nano Research 3, 98 (2010) Link
21 Mapping the Dirac point in gated bilayer graphene A. Deshpande, W. Bao, Z. Zhao, and C. N. Lau, B. J. LeRoy, Applied Physics Letters 95, 243502
(2009) Link
20 Raman Spectroscopy of Ripple Formation in Suspended Graphene Chun-Chung Chen, Wenzhong Bao, Jesse Theiss, Chris Dames, Chun Ning Lau, and
Stephen B. Cronin, Nano Letters 9 (12), 4172-4176 (2009) Link
19 Thermal contact resistance between graphene and silicon dioxide Z. Chen, W. Jang, W. Bao, C. N. Lau, C. Dames, Applied Physics Letters 95, 161910
(2009) Link
18 Controlled ripple texturing of suspended graphene and ultrathin graphite membranes Wenzhong Bao, Feng Miao, Zhen Chen, Hang Zhang, Wanyoung
Jang, Chris Dames, Chun Ning Lau, Nature Nanotechnology 4, 562 - 566 (2009) Link
• Reported by sciencedaily.com, Nanowerk.com, etc.
• Highlighted by Nature Nanotechnology News and Views
17 Anomalous thermoelectric transport of Dirac particles in graphene Peng Wei, Wenzhong Bao, Yong Pu, Chun Ning Lau, and Jing Shi, Physics Review
Letters 102, 166808 (2009) Link
16 Premature switching in graphene Josephson transistors F. Miao*, W. Bao*, H. Zhang, and C. N. Lau, Solid State Communications 149, 1046 (2009)
15 Spatially resolved spectroscopy of monolayer graphene on SiO2 A. Deshpande, W. Bao, F. Miao, C.N. Lau, and B.J. LeRoy, Physics Review B 79, 205411
(2009). Link
• Highlighted by APS Synopses.
14 Electronic Doping and Scattering by Transition Metals on Graphene K. Pi, K. M. McCreary, W. Bao, Wei Han, Y. F. Chiang, Yan Li, S.-W. Tsai, C. N. Lau,
and R. K. Kawakami, Physics Review B 80, 075406 (2009). Link
13 Electrical Detection of Spin Precession in Single Layer Graphene Spin Valves with Transparent Contacts W. Han, K. Pi, W. Bao, K. M. McCreary, Y. Li,
W. H. Wang, C. N. Lau, and R. K. Kawakami, Applied Physics Letters 94, 222109 (2009). Link
12 Electrical Transport in High Quality Graphene pnp Junctions Jairo Valesco Jr., Gang Liu, Wenzhong Bao, and Chun Ning Lau, New Journal of Physics
11, 095008 (2009). Link
11 Electron-Hole Asymmetry of Spin Injection and Transport in Single-Layer Graphene Wei Han, W. H. Wang, K. Pi, K. M. McCreary, W. Bao, Yan Li, F. Miao,
C. N. Lau, and R. K. Kawakami, Physics Review Letters 102, 137205 (2009). Link
10 Raman nanometrology of graphene: Temperature and substrate effects I. Calizo, S. Ghosh, W. Bao, F. Miao, C.N. Lau and A.A. Balandin, Solid State
Communications 149, 1132 (2009). Link
9 Graphene-Based Atomic-Scale Switches B. Standley, W. Bao, H. Zhang, J. Bruck, C.N. Lau, and M.W. Bockrath, Nano Letters 8, (10), 3345-3349
(2008). Link
8 Superior thermal conductivity of single-layer graphene A.A. Balandin, S. Ghosh, W. Bao, I. Calizo, D. Teweldebrhan, F. Miao and C. N. Lau, Nano Letters
8, 902 (2008). Link
• Reported by phys.org and physicsworld.com, etc.
7 Fabrication of Graphene p-n-p Junctions with Contactless Top Gates G. Liu, J. Velasco Jr., W. Bao, and C.N. Lau, Applied Physics Letters 92, 203103
(2008). Link
6 Extremely high thermal conductivity of graphene: Prospects for thermal management applications in nanoelectronic circuits S. Ghosh, I. Calizo,
D. Teweldebrhan, E. P. Pokatilov, D. L. Nika, A. A. Balandin, W. Bao, F. Miao and C. N. Lau, Applied Physics Letters 92, 151911 (2008). Link
5 Growth of atomically smooth MgO films on graphene by molecular beam W. H. Wang, W. Han, K. Pi, K. M. McCreary, F. Miao, W. Bao, C. N. Lau, and
R. K. Kawakami, Applied Physics Letters 93, 183107 (2008). Link
4 Phase-Coherent Transport in Graphene Quantum Billiards Miao F., Wijeratne S., Zhang Y., Coskun U.C., Bao W., Lau C.N., Science 317, 1530 (2007). Link
• Reported by materialstoday.com, sciencedaily.com and physicsworld.com, etc.
3 Temperature dependence of the Raman spectra of graphene and graphene multi-layers I. Calizo, A.A. Balandin, W. Bao, F. Miao and C.N. Lau, Nano
Letters 7, 2645 (2007). Link
2 The effect of substrates on the Raman spectrum of graphene: Graphene-on-sapphire and graphene-on-glass I. Calizo, W. Bao, F. Miao, C.N. Lau and
A.A. Balandin, Applied Physics Letters 91, 201904 (2007). Link
1 Variable temperature Raman microscopy as a nanometrology tool for graphene layers and graphene-based devices I. Calizo, F. Miao, W. Bao, C. N. Lau, and
A. A. Balandin, Applied Physics Letters 91, 071913 (2007). Link