Dr. Vishal Bharti
Dr. Vishal Bharti
Faculty of Science and Tachnology, Universidade NOVA de Lisboa, Portugal
Verified email at fct.unl.pt - Homepage
Cited by
Cited by
Polymer–polymer förster resonance energy transfer significantly boosts the power conversion efficiency of bulk‐heterojunction solar cells
V Gupta, V Bharti, M Kumar, S Chand, AJ Heeger
Advanced Materials 27 (30), 4398-4404, 2015
Diacetylene bridged triphenylamines as hole transport materials for solid state dye sensitized solar cells
M Planells, A Abate, DJ Hollman, SD Stranks, V Bharti, J Gaur, D Mohanty, ...
Journal of Materials Chemistry A 1 (23), 6949-6960, 2013
Hole-transport materials with greatly-differing redox potentials give efficient TiO 2–[CH 3 NH 3][PbX 3] perovskite solar cells
A Abate, M Planells, DJ Hollman, V Barthi, S Chand, HJ Snaith, ...
Physical Chemistry Chemical Physics 17 (4), 2335-2338, 2015
Improved all-polymer solar cell performance of n-type naphthalene diimide–bithiophene P (NDI2OD-T2) copolymer by incorporation of perylene diimide as coacceptor
S Sharma, NB Kolhe, V Gupta, V Bharti, A Sharma, R Datt, S Chand, ...
Macromolecules 49 (21), 8113-8125, 2016
Ruthenium based metallopolymer grafted reduced graphene oxide as a new hybrid solar light harvester in polymer solar cells
R Vinoth, SG Babu, V Bharti, V Gupta, M Navaneethan, SV Bhat, ...
Scientific reports 7 (1), 1-14, 2017
Potential substitutes for replacement of lead in perovskite solar cells: a review
R Kour, S Arya, S Verma, J Gupta, P Bandhoria, V Bharti, R Datt, V Gupta
Global Challenges 3 (11), 1900050, 2019
A green approach for direct growth of CdS nanoparticles network in poly (3-hexylthiophene-2, 5-diyl) polymer film for hybrid photovoltaic
RK Bhardwaj, HS Kushwaha, J Gaur, T Upreti, V Bharti, V Gupta, ...
Materials Letters 89, 195-197, 2012
Improved hole mobility and suppressed trap density in polymer-polymer dual donor based highly efficient organic solar cells
V Bharti, A Sharma, V Gupta, GD Sharma, S Chand
Applied Physics Letters 108 (7), 073505, 2016
Photophysical and charge transport properties of pyrazolines
J Ajantha, E Varathan, V Bharti, V Subramanian, S Easwaramoorthi, ...
RSC advances 6 (1), 786-795, 2016
Revealing the correlation between charge carrier recombination and extraction in an organic solar cell under varying illumination intensity
A Sharma, M Chauhan, V Bharti, M Kumar, S Chand, B Tripathi, JP Tiwari
Physical chemistry chemical physics 19 (38), 26169-26178, 2017
Plasma modification of poly (2-heptadecyl-4-vinylthieno [3, 4-d] thiazole) low bandgap polymer and its application in solar cells
P Attri, V Bharti, YS Kim, J Gaur, S Chand, GC Kwon, SH Lee, W Lee, ...
Physical Chemistry Chemical Physics 16 (48), 27043-27052, 2014
Spray coated europium doped PEDOT: PSS anode buffer layer for organic solar cell: the role of electric field during deposition
T Mohammad, V Bharti, V Kumar, S Mudgal, V Dutta
Organic Electronics 66, 242-248, 2019
Electrochemical detection of ammonia solution using tin oxide nanoparticles synthesized via sol–gel route
S Arya, M Riyas, A Sharma, B Singh, P Bandhoria, S Khan, V Bharti
Applied Physics A 124 (8), 1-7, 2018
CoSP approach for the synthesis of blue MoO3 nanoparticles for application as hole transport layer (HTL) in organic solar cells
C Dwivedi, T Mohammad, V Bharti, A Patra, S Pathak, V Dutta
Solar Energy 162, 78-83, 2018
Effect of Pd concentration on the structural, morphological and photodiode properties of TiO 2 nanoparticles
B Singh, S Arya, A Sharma, P Mahajan, J Gupta, A Singh, S Verma, ...
Journal of Materials Science: Materials in Electronics, 1-10, 2019
In-Situ Growth of CdS Nanorods in PTB7 by Solvothermal Process for Hybrid Organic Inorganic Solar Cell applications
RK Bhardwaj, V Bharti, J Gaur, A Sharma, A Sonania, D Mohanty, S Jain, ...
Physics of Semiconductor Devices, 331-333, 2014
Charge Transport Studies in Pure and CdS Doped PBDTTPD: CdS Nanocomposite for Solar Cell Application
D Mohanty, V Bharti, J Gaur, R Bhardwaj, GD Sharma, S Chand
Physics of Semiconductor Devices, 323-325, 2014
Sustainable Organic Polymer Solar Cells Using TiO2 Derived From Automobile Paint Sludge
J Gaur, V Bharti, S Jain, A Sonania, D Mohanty, GD Sharma, S Chand
Physics of Semiconductor Devices, 395-397, 2014
Realization of highly efficient polymer solar cell based on PBDTTT-EFT and [71] PCBM
V Bharti, S Chand, V Dutta
AIP Conference Proceedings 1942 (1), 140084, 2018
Improved bulk heterojunction solar cells based on modified PTB7-PC60BM
GB Patent GB2519912 (A), 2015
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