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LIST OF PUBLICATIONS IN THE INTERNATIONAL JOURNALS
“Google Scholar Citation”
“Recent Publications”
“2017-2013”
“2012-2002”
[35]-Y. Sohn, D. Pradhan, L. Zhao, and K. T. Leung,*
Anomalous Oxidation Resistance of “Core-Only” Copper Nanoparticles Electrochemically Grown on Gold Nanoislands
Prefunctionalized by 1,4-phenylene Diisocyanide.
Electrochem. Solid-State Lett. 2012, 15, K35-K39. [IF : 2.0]
[34]-D. Pradhan, Z. Su, S. Sindhwani, J. F. Honek, and K. T. Leung,*
Electrochemical Growth of ZnO Nanobelt-Like Structures at 0 oC:
Synthesis, Characterization, and in-Situ Glucose Oxidase Embedment.
J. Phys. Chem. C 2011, 115, 18149-18156. [IF : 4.8]
[33]-D. Pradhan, S. K. Mohapatra, S. Tymen, M. Misra, K. T. Leung,*
Morphology-controlled ZnO Nanomaterials for Enhanced Photoelectrochemical Performance.
Materials Express 2011, 1, 59-67. [IF : x.x]
[32]-S. Bazargan, N. Neinig, D. Pradhan, K. T. Leung,*
Controlled growth of monodisperse
nanocrystallites in tin (IV) oxide nano-films.
Cryst. Growth Des. 2011, 11, 247-255. [IF : 4.7]
[31]-Y. Shon, D. Pradhan, K. T. Leung,*
Electrochemical Pd Nanodeposits on a Au Nanoisland Template Supported on Si(100):
Formation of Pd-Au Alloy and Interfacial Electronic Structures.
ACS Nano 2010, 4, 5111-5120. [IF : 9.9]
[30]-D. Pradhan, F. Niroui, K. T. Leung,*
A high-performance, flexible enzymatic glucose
biosensor based on ZnO nanowires supported on a
gold-coated polyester substrate.
ACS Applied Materials & Interfaces 2010, 2, 2409-2412. [IF : 2.9]
[29]-D. Pradhan, S. Sindhwani, K. T. Leung,*
Parametric study on dimensional control of ZnO nanowalls and nanowires by electrochemical deposition.
Nanoscale Research Letters 2010, 5, 1727-1736. [IF : 2.5]
[28]-A. Radi, D. Pradhan, Y. Shon, K. T. Leung,*
Nanoscale shape and size control of cubic, cuboctahedral and cctahedral Cu-Cu2O core-shell
nanoparticles on Si(100) by one-step, templateless, capping-agent-free electrodeposition.
ACS Nano 2010, 4, 1553-1560. [IF : 9.9]
[27]-D. Lee, D. Pradhan, R. Mouawia, D. Oh, N. Heinig, K. T. Leung, E. Prouzet,*
ZnO nanostructures grown onto polypyrrole films prepared in
swollen liquid crystals via integrative chemistry. Chem. Mater. 2010, 1, 218-225. [IF : 6.3]
[26]-D. Pradhan, S. Sindhwani, K. T. Leung,* Template-Free
Electrochemical growth of single-crystalline zinc nanowires at an anomalously low temperature.
J. Phys. Chem C Letters 2009, 113, 15788-157891. [IF : 4.2]
[25]-D. Pradhan,* I-Nan Lin, Grain size dependent diamond-nondiamond
composite films: Characterization and field emission properties
ACS Applied Materials & Interfaces 2009, 1, 1444-1450. [IF : x.x]
[24]-D. Pradhan, K. T. Leung,* Template-free single-step electrochemical
synthesis of ZnO hollow nanospheres: Self-assembly of hollow nanospheres from nanoparticles
J. Mater. Chem. (Communication) 2009, 19, 4092-4095. [IF : 4.8]
[23]-Y. Sohn, D. Pradhan, A. Radi, K. T. Leung* Interfacial
electronic structure of gold nanoparticles on Si(100): Alloying versus quantum size effects Langmuir 2009,
25, 9557-9563. [IF : 3.9]
[22]-D. Pradhan,* I-Nan Lin, Effect of titanium powder
assisted surface pretreatment process on the nucleation enhancement and surface roughness of
ultrananocrystalline diamond thin films Appl. Surf. Sci. 2009,
255, 6907-6913. [IF : 1.6]
[21]-D. Pradhan, M. Kumar, Y. Ando, K. T. Leung,*
Fabrication of ZnO Nanospikes and Nanopillars on ITO-glass by
Templateless Seed-layer-free Electrodeposition and their Field Emission Properties
ACS Applied Materials & Interfaces 2009, 1, 789-796. [IF : x.x]
[20]-A. Chatterjee, L. Zhao, L. Zhang, D. Pradhan, X. Zhou, K.T. Leung,*
Core-level electronic structure of solid-phase glycine, glycyl-glycine, diglycyl-glycine and polyglycine:
X-ray photoemission analysis, and Hartree-Fock calculations of their zwitterions. J. Chem. Phys. 2008,
129, 105104.
Also selected for the September 15, 2008 issue of Virtual Journal of Biological Physics Research,
Volume 16, Issue 6 (2008). [IF : 3.1]
[19]-D. Pradhan K. T. Leung,* Controlled Growth of 2D and 1D ZnO Nanostructures
on ITO-glass by Direct Electrodeposition.
Langmuir 2008, 24, 9707-9716. [IF : 4.0]
[18]-D. Pradhan, M. Kumar, Y. Ando, K. T. Leung,*
One-Dimensional and Two-Dimensional ZnO Nanostructured Materials on a Plastic Substrate and Their Field Emission Properties.
J. Phys. Chem. C Letters 2008, 112, 7093-7096. [IF : 3.4]
[17]-D. Pradhan, K. T. Leung,* Vertical Growth of Two-Dimensional Zinc Oxide Nanostructures on
ITO-Coated Glass: Effects of Deposition Temperature and Deposition Time.
J. Phys. Chem. C 2008, 112, 1357-1364. [IF : 3.4]
[16]-D. Pradhan, M. Kumar, Y. Ando, K. T. Leung,* Efficient field emission from
vertically grown planar ZnO nanowalls on an
ITO–glass substrate. Nanotechnology 2008, 19, 35603. [IF : 3.4]
Top 10% download of all IOP journals - 250 downloads in just 25 days
[15]-D. Pradhan,* M. Sharon, Opto-electrical properties of
amorphous carbon thin film deposited from natural precursor camphor.
Appl. Surf. Sci. 2007, 253, 7004-7010.
[14]-D. Pradhan,* M. Sharon, M. Kumar and Y. Ando, Synthesis of Beaded and Entwined Carbon Nanofibers in Ni:Al Alloy Catalyst.
J. Nanosci. Nanotech. 2007, 7, 1034-1038.
[13]-D. Pradhan, L. J. Chen, Y. C. Lee, C. Y. Lee, N. H. Tai, I. N. Lin,* Effect of titanium metal in the prenucleation of ultrananocrystalline
diamond film growth at low substrate temperature.
Diam. Rel. Mater. 2006, 15, 1779-1783.
[12]-D. Pradhan, Y. C. Lee, C. W. Pao, W. F. Pong, I. N. Lin,* Low temperature growth of ultrananocrystalline diamond film and its field
emission properties. Diam. Rel. Mater. 2006, 15, 2001-2005.
[11]-Y. C. Lee, S. J. Lin, D. Pradhan, I. N. Lin,* Improvement on the growth of
ultrananocrystalline diamond (UNCD) using prenucleation technique.
Diam. Rel. Mater. 2006, 15, 353-256.
[10]-Y. C. Lee, D. Pradhan, S. J. Lin, C. T. Chia, H. F. Cheng and I. N. Lin,*
Effect of surface treatment on the electron field emission property of nano-diamond thin film.
Diam. Rel. Mater. 2005, 14, 2055-2058.
[9]-Y. K. Liu,* P. L. Tso, D. Pradhan, I. N. Lin, M. Clark, Y. Tzeng, Structural
and electrical properties of nanocrystalline diamond (NCD) heavily doped by nitrogen.
Diam. Rel. Mater. 2005, 14, 2059-2062.
[8]-M. Sharon,* D. Pradhan, Renju Zacharia, and Vijaya Puri, Application of carbon
nanomaterial as a microwave absorber. J. Nanosci. Nanotech. 2005, 5, 2117-2120 (2005).
[7]-D. Pradhan, M. Sharon,* Y-Junction Multibranched Carbon Nanofibers.
J. Nanosci. Nanotech. 2005, 5, 1718-1720.
[6]-D. Pradhan,* M. Sharon, Electrochemical behaviour of amorphous carbon
obtained from camphor. Electrochim. Acta, 2005, 50, 2905-2910.
[5]-D. Pradhan, M. Sharon,* M. Kumar and Y. Ando, Nano-octopus: A new form of
branching carbon nanofiber. J. Nanosci. Nanotech. (Communication) 2003, 3, 215-217.
[4]-D. Pradhan,* I. Mukhopadhyay and M. Sharon, Synthesis of vapor grown carbon
fibers from camphor without catalyst and their characterization. J. Mater. Res. 2003, 18, 2033-2038.
[3]-D. Pradhan and M. Sharon,* Carbon nanotubes, nanofilaments and nanobeads by thermal chemical vapor deposition process.
Mater. Sci. Eng. B 2002, 96, 24-28.
[2]-M. Sharon,* D. Pradhan , Y. Ando and X. Zhao, Electrical and optical properties of semiconducting camphoric carbon films.
Curr. Appl. Phys. 2002, 2, 445-450.
[1]-D. Pradhan, M. Sharon,* M. Kumar and Y. Ando, Nano-range octopus type vapor grown carbon fibers from camphor.
Mol. Cryst. Liq. Cryst., 2002, 387, 151-156.
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