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Sajeev Chacko
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Why do gallium clusters have a higher melting point than the bulk?
S Chacko, K Joshi, DG Kanhere, SA Blundell
Physical review letters 92 (13), 135506, 2004
1382004
Ab initio density functional investigation of clusters: Rings, tubes, planes, and cages
S Chacko, DG Kanhere, I Boustani
Physical Review B 68 (3), 035414, 2003
1332003
A plausible mechanism for the antimalarial activity of artemisinin: a computational approach
A Shandilya, S Chacko, B Jayaram, I Ghosh
Scientific reports 3 (1), 2513, 2013
1162013
Handbook of nanophysics: principles and methods
KD Sattler
CRC press, 2010
922010
First principles calculations of melting temperatures for free Na clusters
S Chacko, DG Kanhere, SA Blundell
Physical Review B 71 (15), 155407, 2005
692005
First-principles investigation of finite-temperature behavior in small sodium clusters
MS Lee, S Chacko, DG Kanhere
The Journal of chemical physics 123 (16), 164310, 2005
652005
Ferromagnetism in carbon-doped zinc oxide systems
BJ Nagare, S Chacko, DG Kanhere
The Journal of Physical Chemistry A 114 (7), 2689-2696, 2010
562010
Ground-state geometries and stability of impurity doped clusters: Li n Be and Li n Mg (n= 1–1 2)
M Deshpande, A Dhavale, RR Zop, S Chacko, DG Kanhere
Physical Review A 62 (6), 063202, 2000
472000
Size-sensitive melting characteristics of gallium clusters: Comparison of experiment and theory for and
S Krishnamurty, S Chacko, DG Kanhere, GA Breaux, CM Neal, MF Jarrold
Physical Review B 73 (4), 045406, 2006
442006
Structural and electronic properties of aluminum-based binary clusters
S Chacko, M Deshpande, DG Kanhere
Physical Review B 64 (15), 155409, 2001
322001
Synthesis and optoelectronic investigations of triarylamines based on naphtho[2,3-f]quinoxaline-7,12-dione core as donor–acceptors for n-type materials
SCRMK Azam M. Shaikh, Bharat K. Sharma
RSC Advances 6 (Royal Society of Chemistry, UK), 60084-60093, 2016
292016
Evolution of the structural and bonding properties of aluminum-lithium clusters
S Chacko, DG Kanhere, VV Paranjape
Physical Review A 70 (2), 023204, 2004
292004
Mechanistic insights into mode of actions of novel oligopeptidase B inhibitors for combating leishmaniasis
S Goyal, S Grover, JK Dhanjal, M Goyal, C Tyagi, S Chacko, A Grover
Journal of molecular modeling 20, 1-9, 2014
242014
Synthesis and investigation of the photophysical, electrochemical and theoretical properties of phenazine–amine based cyan blue-red fluorescent materials for organic electronics
DN Kanekar, S Chacko, RM Kamble
New Journal of Chemistry 44 (8), 3278-3293, 2020
232020
Quinoxaline based amines as Blue-orange emitters: Effect of modulating donor system on Optoelectrochemical and theoretical properties
DN Kanekar, S Chacko, RM Kamble
Dyes and Pigments 167, 36-50, 2019
222019
Novel electroluminescent donor–acceptors based on dibenzo [a, c] phenazine as hole-transporting materials for organic electronics
AM Shaikh, BK Sharma, S Chacko, RM Kamble
New Journal of Chemistry 41 (2), 628-638, 2017
222017
Synthesis and opto-electrochemical properties of tribenzo [a, c, i] phenazine derivatives for hole transport materials
AM Shaikh, BK Sharma, S Chacko, RM Kamble
RSC advances 6 (96), 94218-94227, 2016
222016
The design and synthesis of 2, 3-diphenylquinoxaline amine derivatives as yellow-blue emissive materials for optoelectrochemical study
PS Singh, S Chacko, RM Kamble
New Journal of Chemistry 43 (18), 6973-6988, 2019
202019
Synthesis, optoelectronic and theoretical investigation of anthraquinone Amine− Based Donor− Acceptor derivatives
AM Shaikh, S Chacko, RM Kamble
ChemistrySelect 2 (25), 7620-7629, 2017
182017
2, 3‐Di (thiophen‐2‐yl) quinoxaline amine derivatives: yellow‐blue fluorescent materials for applications in organic electronics
SS Mahadik, S Chacko, RM Kamble
ChemistrySelect 4 (34), 10021-10032, 2019
172019
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