| Upconversion in Er3+: ZrO2 nanocrystals A Patra, CS Friend, R Kapoor, PN Prasad The Journal of Physical Chemistry B 106 (8), 1909-1912, 2002 | 477 | 2002 |
| Nanoscale strategies for light harvesting S Kundu, A Patra Chemical reviews 117 (2), 712-757, 2017 | 417 | 2017 |
| Surface Defect-Related Luminescence Properties of SnO2 Nanorods and Nanoparticles A Kar, S Kundu, A Patra The Journal of Physical Chemistry C 115 (1), 118-124, 2011 | 322 | 2011 |
| Fluorescence upconversion properties of Er3+-doped TiO2 and BaTiO3 nanocrystallites A Patra, CS Friend, R Kapoor, PN Prasad Chemistry of Materials 15 (19), 3650-3655, 2003 | 319 | 2003 |
| -doped nanocrystals for thermometry: Influence of nanoenvironment on the sensitivity of a fluorescence based temperature sensor MARC Alencar, GS Maciel, CB de Araújo, A Patra Applied Physics Letters 84 (23), 4753-4755, 2004 | 306 | 2004 |
| Effect of crystal nature on upconversion luminescence in nanocrystals A Patra, CS Friend, R Kapoor, PN Prasad Applied physics letters 83 (2), 284-286, 2003 | 298 | 2003 |
| Shell thickness dependent photocatalytic properties of ZnO/CdS core–shell nanorods S Khanchandani, S Kundu, A Patra, AK Ganguli The Journal of Physical Chemistry C 116 (44), 23653-23662, 2012 | 257 | 2012 |
| Photophysical properties of doped carbon dots (N, P, and B) and their influence on electron/hole transfer in carbon dots–nickel (II) phthalocyanine conjugates MK Barman, B Jana, S Bhattacharyya, A Patra The Journal of Physical Chemistry C 118 (34), 20034-20041, 2014 | 251 | 2014 |
| 2D hybrid nanostructure of reduced graphene oxide–CdS nanosheet for enhanced photocatalysis R Bera, S Kundu, A Patra ACS Applied Materials & Interfaces 7 (24), 13251-13259, 2015 | 247 | 2015 |
| Band Gap Tuning of ZnO/In2S3 Core/Shell Nanorod Arrays for Enhanced Visible-Light-Driven Photocatalysis S Khanchandani, S Kundu, A Patra, AK Ganguli The Journal of Physical Chemistry C 117 (11), 5558-5567, 2013 | 246 | 2013 |
| Sonochemical preparation and characterization of Eu2O3 and Tb2O3 doped in and coated on silica and alumina nanoparticles HMRR A. Patra, E. Sominski, R. Ramesh, Yu. Koltypin, Z. Zhong, A. Gedanken Journal of Physical Chemistry B 103 (17), 3361-3365, 1999 | 211 | 1999 |
| Synthesis and characterization of PVP-encapsulated ZnS nanoparticles G Ghosh, MK Naskar, A Patra, M Chatterjee Optical Materials 28 (8-9), 1047-1053, 2006 | 184 | 2006 |
| Enhancement of Upconversion Emission of LaPO4:Er@Yb Core−Shell Nanoparticles/Nanorods P Ghosh, J Oliva, ED Rosa, KK Haldar, D Solis, A Patra The Journal of Physical Chemistry C 112 (26), 9650-9658, 2008 | 177 | 2008 |
| Core-size-dependent catalytic properties of bimetallic Au/Ag core–shell nanoparticles KK Haldar, S Kundu, A Patra ACS applied materials & interfaces 6 (24), 21946-21953, 2014 | 169 | 2014 |
| Fluorescence study of zirconia films doped by Eu3+, Tb3+ and Sm3+ and their comparison with silica films R Reisfeld, M Zelner, A Patra Journal of Alloys and Compounds 300, 147-151, 2000 | 166 | 2000 |
| Au nanoparticle-based surface energy transfer probe for conformational changes of BSA protein T Sen, KK Haldar, A Patra The Journal of Physical Chemistry C 112 (46), 17945-17951, 2008 | 141 | 2008 |
| Impacts of core–shell structures on properties of lanthanide-based nanocrystals: crystal phase, lattice strain, downconversion, upconversion and energy transfer A Kar, A Patra Nanoscale 4 (12), 3608-3619, 2012 | 136 | 2012 |
| Surface energy transfer from rhodamine 6G to gold nanoparticles: A spectroscopic ruler T Sen, S Sadhu, A Patra Applied physics letters 91 (4), 043104, 2007 | 136 | 2007 |
| Au@ ZnO core− shell nanoparticles are efficient energy acceptors with organic dye donors KK Haldar, T Sen, A Patra The Journal of Physical Chemistry C 112 (31), 11650-11656, 2008 | 128 | 2008 |
| Tuning of crystal phase and luminescence properties of Eu3+ doped sodium yttrium fluoride nanocrystals P Ghosh, A Patra The Journal of Physical Chemistry C 112 (9), 3223-3231, 2008 | 126 | 2008 |
