|Cavity Casimir-Polder forces and their effects in ground-state chemical reactivity|
J Galego, C Climent, FJ Garcia-Vidal, J Feist
Physical Review X 9 (2), 021057, 2019
|Tracking polariton relaxation with multiscale molecular dynamics simulations|
G Groenhof, C Climent, J Feist, D Morozov, JJ Toppari
The journal of physical chemistry letters 10 (18), 5476-5483, 2019
|“Aggregation-induced emission” of transition metal compounds: Design, mechanistic insights, and applications|
P Alam, C Climent, P Alemany, IR Laskar
Journal of Photochemistry and Photobiology C: Photochemistry Reviews 41, 100317, 2019
|New ‘aggregation induced emission (AIE)’active cyclometalated iridium (iii) based phosphorescent sensors: high sensitivity for mercury (ii) ions|
P Alam, G Kaur, C Climent, S Pasha, D Casanova, P Alemany, ...
Dalton Transactions 43 (43), 16431-16440, 2014
|Facile tuning of the aggregation-induced emission wavelength in a common framework of a cyclometalated iridium (iii) complex: micellar encapsulated probe in cellular imaging|
P Alam, P Das, C Climent, M Karanam, D Casanova, AR Choudhury, ...
Journal of Materials Chemistry C 2 (28), 5615-5628, 2014
|Plasmonic Nanocavities Enable Self‐Induced Electrostatic Catalysis|
C Climent, J Galego, FJ Garcia‐Vidal, J Feist
Angewandte Chemie International Edition 58 (26), 8698-8702, 2019
|‘Aggregation induced emission’active iridium (III) complexes with applications in mitochondrial staining|
P Alam, S Dash, C Climent, G Kaur, AR Choudhury, D Casanova, ...
RSC advances 7 (10), 5642-5648, 2017
|Microwave-assisted facile and expeditive syntheses of phosphorescent cyclometallated iridium (III) complexes|
P Alam, IR Laskar, C Climent, D Casanova, P Alemany, M Karanam, ...
Polyhedron 53, 286-294, 2013
|Dual emission and multi-stimuli-response in iridium (iii) complexes with aggregation-induced enhanced emission: applications for quantitative CO 2 detection|
C Climent, P Alam, SS Pasha, G Kaur, AR Choudhury, IR Laskar, ...
Journal of Materials Chemistry C 5 (31), 7784-7798, 2017
|On the sn 2 reactions modified in vibrational strong coupling experiments: reaction mechanisms and vibrational mode assignments|
C Climent, J Feist
Physical Chemistry Chemical Physics 22 (41), 23545-23552, 2020
|Exploring the origin of “aggregation induced emission” activity and “crystallization induced emission” in organometallic iridium (III) cationic complexes: influence of counterions|
P Alam, C Climent, G Kaur, D Casanova, A Roy Choudhury, A Gupta, ...
Crystal Growth & Design 16 (10), 5738-5752, 2016
|Controlling ultralong room temperature phosphorescence in organic compounds with sulfur oxidation state|
Z Xu, C Climent, CM Brown, D Hean, CJ Bardeen, D Casanova, MO Wolf
Chemical science 12 (1), 188-195, 2021
|Evaluation of novel platinum (II) based AIE compound-encapsulated mesoporous silica nanoparticles for cancer theranostic application|
SS Pasha, L Fageria, C Climent, NP Rath, P Alemany, R Chowdhury, ...
Dalton Transactions 47 (13), 4613-4624, 2018
|Impact of vibrational modes in the plasmonic Purcell effect of organic molecules|
D Zhao, REF Silva, C Climent, J Feist, AI Fernández-Domínguez, ...
ACS photonics 7 (12), 3369-3375, 2020
|Photoisomerization efficiency of a solar thermal fuel in the strong coupling regime|
J Mony, C Climent, AU Petersen, K Moth‐Poulsen, J Feist, K Börjesson
Advanced Functional Materials 31 (21), 2010737, 2021
|The photophysics of naphthalene dimers controlled by sulfur bridge oxidation|
C Climent, M Barbatti, MO Wolf, CJ Bardeen, D Casanova
Chemical science 8 (7), 4941-4950, 2017
|Using sulfur bridge oxidation to control electronic coupling and photochemistry in covalent anthracene dimers|
CD Cruz, J Yuan, C Climent, NT Tierce, PR Christensen, EL Chronister, ...
Chemical science 10 (32), 7561-7573, 2019
|Electronic structure calculations for the study of D-π-A organic sensitizers: Exploring polythiophene linkers|
C Climent, D Casanova
Chemical Physics 423, 157-166, 2013
|Revising the common understanding of metamagnetism in the molecule-based bisdithiazolyl BDTMe compound|
C Climent, S Vela, J Jornet-Somoza, M Deumal
Physical Chemistry Chemical Physics 21 (23), 12184-12191, 2019
|Molecular dipole, dye structure and electron lifetime relationship in efficient dye sensitized solar cells based on donor–π–acceptor organic sensitizers|
C Climent, L Cabau, D Casanova, P Wang, E Palomares
Organic Electronics 15 (11), 3162-3172, 2014