Green Fluorescent Protein-Expressing Escherichia coli as a Model System for Investigating the Antimicrobial Activities of Silver Nanoparticles SK Gogoi, P Gopinath, A Paul, A Ramesh, SS Ghosh, A Chattopadhyay Langmuir 22 (22), 9322-9328, 2006 | 573 | 2006 |
The antibacterial properties of a novel chitosan–Ag-nanoparticle composite P Sanpui, A Murugadoss, PVD Prasad, SS Ghosh, A Chattopadhyay International journal of food microbiology 124 (2), 142-146, 2008 | 539 | 2008 |
Induction of apoptosis in cancer cells at low silver nanoparticle concentrations using chitosan nanocarrier P Sanpui, A Chattopadhyay, SS Ghosh ACS applied materials & interfaces 3 (2), 218-228, 2011 | 461 | 2011 |
One step synthesis of C-dots by microwave mediated caramelization of poly (ethylene glycol) A Jaiswal, SS Ghosh, A Chattopadhyay Chemical communications 48 (3), 407-409, 2012 | 434 | 2012 |
A ‘green’chitosan–silver nanoparticle composite as a heterogeneous as well as micro-heterogeneous catalyst A Murugadoss, A Chattopadhyay Nanotechnology 19 (1), 015603, 2007 | 371 | 2007 |
Presence of amorphous carbon nanoparticles in food caramels MP Sk, A Jaiswal, A Paul, SS Ghosh, A Chattopadhyay Scientific reports 2 (1), 383, 2012 | 304 | 2012 |
Signaling gene cascade in silver nanoparticle induced apoptosis P Gopinath, SK Gogoi, P Sanpui, A Paul, A Chattopadhyay, SS Ghosh Colloids and Surfaces B: Biointerfaces 77 (2), 240-245, 2010 | 267 | 2010 |
Implications of silver nanoparticle induced cell apoptosis for in vitro gene therapy P Gopinath, SK Gogoi, A Chattopadhyay, SS Ghosh Nanotechnology 19 (7), 075104, 2008 | 261 | 2008 |
Heightened reactive oxygen species generation in the antimicrobial activity of a three component iodinated chitosan− silver nanoparticle composite M Banerjee, S Mallick, A Paul, A Chattopadhyay, SS Ghosh Langmuir 26 (8), 5901-5908, 2010 | 230 | 2010 |
Synthesis of Au nanoparticle–conductive polyaniline composite using H 2 O 2 as oxidising as well as reducing agent TK Sarma, D Chowdhury, A Paul, A Chattopadhyay Chemical Communications, 1048-1049, 2002 | 228 | 2002 |
Fabrication of antibacterial silver nanoparticle—sodium alginate–chitosan composite films S Sharma, P Sanpui, A Chattopadhyay, SS Ghosh Rsc Advances 2 (13), 5837-5843, 2012 | 226 | 2012 |
Enhanced antibacterial activity of bimetallic gold-silver core–shell nanoparticles at low silver concentration M Banerjee, S Sharma, A Chattopadhyay, SS Ghosh Nanoscale 3 (12), 5120-5125, 2011 | 198 | 2011 |
Blue-emitting copper nanoclusters synthesized in the presence of lysozyme as candidates for cell labeling R Ghosh, AK Sahoo, SS Ghosh, A Paul, A Chattopadhyay ACS applied materials & interfaces 6 (6), 3822-3828, 2014 | 195 | 2014 |
Retention of enzymatic activity of α-amylase in the reductive synthesis of gold nanoparticles A Rangnekar, TK Sarma, AK Singh, J Deka, A Ramesh, A Chattopadhyay Langmuir 23 (10), 5700-5706, 2007 | 192 | 2007 |
Photocatalytic Polypyrrole−TiO2−Nanoparticles Composite Thin Film Generated at the Air−Water Interface D Chowdhury, A Paul, A Chattopadhyay Langmuir 21 (9), 4123-4128, 2005 | 185 | 2005 |
Iodine-stabilized Cu nanoparticle chitosan composite for antibacterial applications S Mallick, S Sharma, M Banerjee, SS Ghosh, A Chattopadhyay, A Paul ACS applied materials & interfaces 4 (3), 1313-1323, 2012 | 176 | 2012 |
Vibrational Stark effect spectroscopy A Chattopadhyay, SG Boxer Journal of the American Chemical Society 117 (4), 1449-1450, 1995 | 172 | 1995 |
Gold nanocluster embedded albumin nanoparticles for two‐photon imaging of cancer cells accompanying drug delivery R Khandelia, S Bhandari, UN Pan, SS Ghosh, A Chattopadhyay Small 11 (33), 4075-4081, 2015 | 153 | 2015 |
Quantum dot impregnated-chitosan film for heavy metal ion sensing and removal A Jaiswal, SS Ghsoh, A Chattopadhyay Langmuir 28 (44), 15687-15696, 2012 | 133 | 2012 |
Recent advances in crystalline carbon dots for superior application potential A Pal, MP Sk, A Chattopadhyay Materials Advances 1 (4), 525-553, 2020 | 120 | 2020 |