Back to Home
/physics/components/physics-main-slides-rotating-component.xhtml
Publications

Jingbiao Cui

Degree: Ph.D in Physics from University of Science and Technology of China
Position: Professor and Chair
Office: MN216
Laboratory: MN420
Phone: (901)678 2620
Email: jcui@memphis.edu

Selected Publications:

M.A. Thomas, J. Armstrong, J.B. Cui, “A New Approach Toward Transparent and Conductive ZnO by Atomic Layer Deposition: Hydrogen Plasma Doping”, Journal of Vacuum Science and Technology A31, 01A130-1/6 (2013).

T.B. Fleetham, N. Bakkan, J.P. Mudrick, J. D. Myers, V. D. Cassidy, J. B. Cui, J. G. Xue, and J. Li, “Enhanced open-circuit voltage in organic photovoltaic cells with partially chlorinated zinc phthalocyanine”, Journal of Materials Science 48, 7104-7114(2013).

S. AbdulAlmohsin, J.B. Cui, “Graphene enhanced P3HT and porphyrin modified ZnO nanowire arrays for hybrid solar cell applications”, The Journal of Physical Chemistry C 116, 9433-9438 (2012).

M. A. Thomas and J. B. Cui, “Electrochemical route to p-type doping of ZnO nanowires”, Journal of the Physical Chemistry Letters1, 1090-1094 (2010).

J. B. Cui and U.J. Gibson, “A simple two-step electrodeposition of Cu2O/ZnOnanopillar solar cells”, Journal of the Physical ChemistryC114, 6408-6412 (2010).

J.B. Cui, “Defect control and its influence on exciton emission of electrodeposited ZnOnanorods”, Journal of Physical ChemistryC112, 10385-10388 (2008).

J.B. Cui and U.J. Gibson, “Low temperature fabrication of single crystal ZnOnanopillar photonics bandgap structures”, Nanotechnology18, 155302 (2007).

J.B. Cui and U.J. Gibson, “Thermal modification of magnetism in Co-doped ZnO nanowires grown at low temperature”, Physical Review B74, 045416 (2006).

J.B. Cui and U.J. Gibson, “Electrodeposition and room temperature ferromagnetic anisotropy of Co and Ni-doped ZnO nanowire arrays”, Applied Physics Letters 87, 133108 (2005).

J.B. Cui, C. Daghlian, and U. J. Gibson, “Gold nanoparticle mediated formation of aligned nanotube composite films”, Journal of Physical Chemistry B 109, 11456 (2005).

J.B. Cui, M. Burghard, and K. Kern. “Reversible sidewall osmylation of individual carbon nanotubes”, Nano Letters 3, 613 (2003).

J.B. Cui, R. Sordan, M. Burghard, and K. Kern. “Carbon nanotube memory devices of high charge storage stability”, Applied Physics Letters 81, 3260 (2002).

J.B. Cui, M. Burghard, and K. Kern. “Room temperature single electron transistor by local chemical modification of carbon nanotubes”, Nano Letters2, 117 (2002).

J.B. Cui, K.B.K. Teo, J.T.H. Tsai, J. Robertson and W.I. Milne. “The role of dc current limitations in Fowler-Nordheim electron emission from carbon films”, Applied Physics Letters 77, 1831 (2000).

J.B. Cui, J. Ristein, and L. Ley. “Low threshold electron emission from diamond”, Physical Review B59, 16135 (1999).

J.B. Cui, J. Ristein, and L. Ley. “Dehydrogenation and the surface phase transition on diamond (111): kinetics and electronic structure”, Physical Review B59, 5847 (1999).

J.B. Cui, J. Ristein, L. Ley. “Electron affinity of the bare and hydrogenated diamond (111) surface”, Physical Review Letters 81, 429 (1998).

Text Only | Print | Got a Question? Ask TOM | Contact Us | Memphis, TN 38152 | 901/678-2000 | Copyright 2014 University of Memphis | Important Notice | Last Updated: 
Department of Physics | Phone 901.678.2620 | Fax 901.678.4733 | 216 Manning Hall, Memphis, Tennessee 38152
Last Updated: 3/7/14