>89 publications with total citations of ~10087 and an H-index of 45 based on ISI Web of Sciences.

[Researcher ID] Thomson Reuters: http://www.researcherid.com/rid/B-2287-2010

[Google Scholar]: http://scholar.google.com/citations?user=tDuPo6MAAAAJ&hl=en

2015

53. Chen, L.; Liu, B. L.*; Ge, M. Y.; Ma, Y. Q.; Abbas, A. A.; Fathi, M.; Zhou, C. W.*, Step-edge-guided growth of aligned few-layer WSe2 via a layer-over-layer mode, (*Corresponding author), ACS Nano, 2015, 9, 8368-8375.
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52. Ma, Y. Q.; Liu, B. L.*; Zhang, A. Y.; Chen, L.; Fathi, M.; Abbas, A.; Ge, M. Y.; Shen, C. F.; Zhou, C. W.*, Reversible semiconducting-to-metallic phase transitions in chemical vapor deposition grown monolayer WSe2 and applications for devices (*Corresponding author), ACS Nano, 2015, 9, 7383-7391.
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51. Liu, B. L.;Köpf, M.; Abbas, A. A.; Wang, X. M.;Guo, Q. S.;Jia, Y. C.; Xia, F. N.;Weihrich, R.;Bachhuber, F.;Pielnhofer, F.; Wang, H.;Dhall, R.; Cronin, S. B.;Ge, M. Y.; Fang, X.;Nilges, T.;Zhou, C. W.*, Black arsenic-phosphorus: layered anisotropic infrared semiconductors with highly tunable compositions and properties, Advanced Materials, 2015, 27, 4423-4429.
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Research news 1: The Peaks and Valleys of Silicon
http://viterbi.usc.edu/news/news/2015/new-layered-semiconducting-materials-as-silicon-alternative.html
Research news 2: Layered semiconducting black arsenic phosphorus as an alternative to silicon
http://www.tum.de/en/about-tum/news/press-releases/short/article/32513/?
Also reported by: Materials Today, Science Daily, Phys Org, NanoWerk, IEEE Spectrum, Compound Semiconductor etc.

50. Liu, B. L.*+;Fathi, M.+; Chen, L.; Abbas, A. A.; Ma, Y. Q.; Zhou, C. W.*, Chemical vapor deposition growth of monolayer WSe2 with tunable device characteristics and growth mechanism study (*Corresponding author; +Equal first author), ACS Nano, 2015, 9, 6119-6127.
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49. Liu, B. L.; Liu, J., Li, H. B.; Bhola, R.; Jackson, E. A.; Scott, L. T.; Page, A.; Irle, S.; Morokuma, K.; Zhou, C.W.*, Nearly exclusive growth of small diameter semiconducting single-wall carbon nanotubes from organic chemistry synthetic end-cap molecules, Nano Letters, 2015, 15, 586-595.
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48. Wei, L.; Liu, B. L.; Wang, X.; Gui, H.; Yang, Y.; Zhou, C. W.*, Chen, Y.*; Enrichment of large-diameter (9,8) single walled carbon nanotubes via aqueous two-phase separation and their thin film transistor applications. Advanced Electronic Materials, 2015, 1500151.
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47. Wang, H. F.; Yamada, C.; Liu, J.; Liu, B. L.; Tu, X.; Zheng, M.; Zhou, C.; Homma, Y.*; Re-growth of single-walled carbon nanotube by hot-wall and cold-wall chemical vapor deposition. Carbon, 2015, 95, 497-502.
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46. Abbas, A.; Liu, B. L.; Chen, L.; Ma, Y. Q.; Cong, S.; Aroonyade, N.; Köpf, M.; Nilges, T.; Zhou, C. W.*, Black phosphorus gas sensors, ACS Nano, 2015, 9, 5618-5624.
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45. Abbas, A.; Liu, B. L.; Narita, A.; Dössel, L.; Yang, B.; Zhang, W.; Tang, J. S.; Wang, K. L.; Räder, J. H.; Feng, X. L.; Müllen, K.; Zhou, C. W.*, Vapor-phase transport deposition, characterization, and applications of giant nanographenes, J. Am. Chem. Soc., 2015, 137, 4453-4459.
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