劉碧錄

劉碧錄

劉碧錄,男,2006年本科畢業於中國科技大學材料科學與工程系,2012年博士畢業於中科院金屬研究所,導師成會明院士、任文才研究員。

劉碧錄博士目前發表學術論文56篇,其中影響因子大於10的論文30篇,如Adv. Mater., Nano Lett., JACS, ACS Nano, Nature Materials, Nature Communications等。這些論文被引用5800餘次,H因子32。獲得了2012年“中科院院長特別獎”、2016年中組部“青年千人計畫”等榮譽和獎勵。

劉碧錄博士現為清華-伯克利深圳學院副教授(Associate Professor),主要研究方向是碳納米管和二維半導體材料的控制生長、生長機理及其納電子器件、薄膜電子器件、光電器件和能源器件套用。

基本介紹

  • 中文名:劉碧錄
  • 外文名:Bilu Liu
  • 國籍:中國
  • 職業:教師,副教授
  • 畢業院校:中國科技大學;中科院金屬研究所
個人介紹:,研究領域:,教育經歷:,工作經歷:,主要獎勵:,代表性著作:,

個人介紹:

劉碧錄,男,2006年本科畢業於中國科技大學材料科學與工程系,2012年博士畢業於中科院金屬研究所,導師成會明院士、任文才研究員。

研究領域:

劉碧錄博士目前是清華-伯克利深圳學院副教授(Associate Professor),低維材料與器件實驗室PI。他的主要研究方向是碳納米管和二維半導體材料的控制生長、生長機理、及其納電子器件、薄膜電子器件、光電器件和能源器件套用。劉碧錄博士目前發表了56篇學術論文,其中影響因子大於10的論文30篇,如Adv. Mater., Nano Lett., JACS, ACS Nano, Nature Materials, Nature Communications等。這些論文被引用5800餘次,H因子32。劉碧錄博士獲得了2012年“中科院院長特別獎”(President Scholarship for Postgraduate Student of Chinese Academy of Sciences)、2016年中組部“青年千人計畫”(The National Youth 1000-Talent Program)等榮譽和獎勵。

教育經歷:

2002.09-2006.06:中國科學技術大學,材料化學,學士
2006.09-2012.01:中國科學院金屬研究所,材料學,博士

工作經歷:

2016.06-至今: 清華-伯克利深圳學院,副教授(Associate Professor)
2016.03-2016.05: University of Southern California (USC), Research Assistant Professor
2012.05-2016.02: University of Southern California (USC), Postdoctoral ResearchAssociate, Research Associate

主要獎勵:

千人計畫(青年項目,The National Youth 1000-Talent Program),2016年
Excellence in Review Award, Carbon,2013/2014年
中國科學院院長特別獎(President Scholarship for Postgraduate Student of Chinese Academy of Sciences,Special prize),2012年

代表性著作:

(1). Liu, B. L.; Ma, Y. Q.; Zhang, A.; Chen, L.; Abbas, A.; Liu, Y.; Shen, C.; Wan, H.; Zhou, C. W.*, High-Performance WSe2 Field-Effect Transistors via Controlled Formation of In-Plane Heterojunctions, ACS Nano, 2016, 10, 5153-5160.
(2). 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, ACS Nano, 2015, 9, 8368-8375.
(3). 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, ACS Nano, 2015, 9, 7383-7391.
(4). 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.
Research news 1: The Peaks and Valleys of Silicon
Research news 2: Layered semiconducting black arsenic phosphorus as an alternative to silicon
Also reported by: Materials Today, Science Daily, Phys Org, Nano Werk, IEEE Spectrum,Compound Semiconductor etc.
(5) Liu, B. L.*;Fathi, M.; Chen, L.; Abbas, A. A.; Ma, Y. Q.; Zhou, C. W.*, Chemical vapor deposition growth of monolayer WSe2with tunable device characteristics and growth mechanism study (Equal first author),ACS Nano,2015,9, 6119-6127.
(6). 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.
(7). Liu, B. L.; Chen, L.; Liu, G.; Abbas, N. A.; Fathi, M.; Zhou, C. W.*, High-performance chemical sensing using Schottky-contacted chemical vapor deposition grown monolayer MoS2 transistors (Equal first author), ACS Nano, 2014, 8, 5304-5314.
(8). Chen, L.; Liu, B. L.; Abbas, A.; Ma, Y. Q.; Fang, X.; Liu, Y.; Zhou, C.W.*, Screw-dislocation-driven growth of two-dimensional few-layer and pyramid-like WSe2 by sulfur-assisted chemical vapor deposition (Equal first author), ACS Nano, 2014, 11, 11543-11551.
(9). Liu, B. L.; Liu, J.; Zhang, J. L.; Tu, X. M.; Zheng, M.*; Zhou, C. W.*, Chirality-dependent vapor-phase epitaxial growth and termination of single-wall carbon nanotubes (Equal first author), Nano Letters, 2013, 13, 4416-4421.
Research highlight: Growing chiral nanotubes, Materials Today, 2013, 16, 362.
Research news: USC researchers figure out how to ‘grow’ carbon nanotubes
(10).Liu, B. L.; Jiang, H.; Krasheninikov, A. V.; Nasibulin, A. G.; Ren, W. C.; Liu, C.; Kauppinen, E. I.*, Cheng, H. M.*, Chirality-dependent reactivity of individual single-wall carbon nanotubes,Small,2013,9, 1379-1386.
(11).Liu, B. L.; Tang, D. M.; Sun, C. H.; Liu, C.; Ren, W. C.*; Li, F.; Yu, W. J.; Yin, L. C.; Zhang, L. L.; Jiang, C. B.; Cheng, H.-M.*, Importance of oxygen in the metal-free catalytic growth of single-walled carbon nanotubes from SiOx by a vapor-solid-solid mechanism, (Equal first author). J. Am. Chem. Soc. 2011,133, 197-199.
Research news 1 atChinese Academy of Sciences website.
Research news 2 at Science Times.
(12).Liu, B. L.; Ren, W. C.*; Liu, C.; Sun, C. H.; Gao, L. B.; Li, S. S.; Jiang, C. B.; Cheng, H.-M.*, Growth velocity and direct length-sorted growth of short single-walled carbon nanotubes by a metal-catalyst-free chemical vapor deposition process.ACS Nano,2009,3, 3421-3430.
(13).Liu, B. L.; Ren, W. C.*; Gao, L. B.; Li, S. S.; Pei, S. F.; Liu, C.; Jiang, C. B.; Cheng, H. M.*,Metal-catalyst-free growth of single-walled carbon nanotubes. J. Am. Chem. Soc. 2009,131, 2082-2083.
Research highlight: Hirsch, A., Growth of single-walled carbon nanotubes without a metal catalyst-A surprising discovery. Angew. Chem. Int. Ed.2009, 48, 5403-5404.
Research news 1: Park, H. G., Expert Reviews at InterNano website.
Research news 2: atChinese Academy of Sciences website.
Research news 3: Science Times.
(14). Liu, J.; Wang, C.; Tu, X. M.; Liu, B. L.; Chen, L.; Zheng, M.*; Zhou, C. W.* Chirality-controlled synthesis of single-wall carbon nanotubes via vapour phase epitaxy, Nature Communications,2012, 3:1199.
Research news 1: at USC website:USC scientists clone carbon nanotubes to unlock their potential
Research news 2: at NIST website
Also reported byScience Daily, The American Ceramic Society, Nano Werk, Daily Trojan, Furuity Org, EE time, Solid State Technology, Silicon Semiconductor, etc.
(15). Chen, Z. P.; Ren, W. C.*; Gao, L. B.; Liu, B. L.; Pei, S. F.; Cheng, H.-M.*, Graphene foams: three-dimensional intergrated graphene networks. Nature Materials, 2011, 10, 424-428. Time cited: 700. Source: ISI.
Research highlight by Nature:Materials science: Fabricating a graphene foam.

相關詞條

熱門詞條

聯絡我們