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Nagaraj Patil
Nagaraj Patil
IMDEA energy institute
Verified email at imdea.org - Homepage
Title
Cited by
Cited by
Year
Recent advances in the synthesis of catechol-derived (bio) polymers for applications in energy storage and environment
N Patil, C Jerome, C Detrembleur
Progress in Polymer Science 82, 34-91, 2018
1682018
Bioinspired redox‐active catechol‐bearing polymers as ultrarobust organic cathodes for lithium storage
N Patil, A Aqil, F Ouhib, S Admassie, O Inganäs, C Jérôme, ...
Advanced Materials 29 (40), 1703373, 2017
1192017
New anthraquinone‐based conjugated microporous polymer cathode with ultrahigh specific surface area for high‐performance lithium‐ion batteries
A Molina, N Patil, E Ventosa, M Liras, J Palma, R Marcilla
Advanced Functional Materials 30 (6), 1908074, 2020
1032020
An Ultrahigh Performance Zinc‐Organic Battery using Poly(catechol) Cathode in Zn(TFSI)2‐Based Concentrated Aqueous Electrolytes
N Patil, C de la Cruz, D Ciurduc, A Mavrandonakis, J Palma, R Marcilla
Advanced Energy Materials 11 (26), 2100939, 2021
862021
Organic batteries based on just redox polymers
N Goujon, N Casado, N Patil, R Marcilla, D Mecerreyes
Progress in Polymer Science 122, 101449, 2021
712021
Mussel-inspired protein-repelling ambivalent block copolymers: controlled synthesis and characterization
N Patil, C Falentin-Daudré, C Jérôme, C Detrembleur
Polymer Chemistry 6 (15), 2919-2933, 2015
702015
Polymers Bearing Catechol Pendants as Universal Hosts for Aqueous Rechargeable H+, Li-Ion, and Post-Li-ion (Mono-, Di-, and Trivalent) Batteries
N Patil, A Mavrandonakis, C Jérôme, C Detrembleur, J Palma, R Marcilla
ACS Applied Energy Materials 2 (5), 3035-3041, 2019
642019
Electrode engineering of redox-active conjugated microporous polymers for ultra-high areal capacity organic batteries
A Molina, N Patil, E Ventosa, M Liras, J Palma, R Marcilla
ACS Energy Letters 5 (9), 2945-2953, 2020
632020
Innovative polyelectrolytes/poly (ionic liquid) s for energy and the environment
FN Ajjan, M Ambrogi, GA Tiruye, D Cordella, AM Fernandes, K Grygiel, ...
Polymer international 66 (8), 1119-1128, 2017
502017
Surface-and redox-active multifunctional polyphenol-derived poly (ionic liquid) s: controlled synthesis and characterization
N Patil, D Cordella, A Aqil, A Debuigne, S Admassie, C Jérôme, ...
Macromolecules 49 (20), 7676-7691, 2016
462016
Integration of redox-active catechol pendants into poly (ionic liquid) for the design of high-performance lithium-ion battery cathodes
N Patil, M Aqil, A Aqil, F Ouhib, R Marcilla, A Minoia, R Lazzaroni, ...
Chemistry of Materials 30 (17), 5831-5835, 2018
392018
High-performance all-organic aqueous batteries based on a poly (imide) anode and poly (catechol) cathode
N Patil, A Mavrandonakis, C Jérôme, C Detrembleur, N Casado, ...
Journal of Materials Chemistry A 9 (1), 505-514, 2021
372021
New insights into phenazine-based organic redox flow batteries by using high-throughput DFT modelling
C De La Cruz, A Molina, N Patil, E Ventosa, R Marcilla, A Mavrandonakis
Sustainable Energy & Fuels 4 (11), 5513-5521, 2020
372020
Molecular crowding bi-salt electrolyte for aqueous zinc hybrid batteries
DE Ciurduc, C de la Cruz, N Patil, A Mavrandonakis, R Marcilla
Energy Storage Materials 53, 532-543, 2022
262022
Swelling-induced optical anisotropy of thermoresponsive hydrogels based on poly (2-(2-methoxyethoxy) ethyl methacrylate): Deswelling kinetics probed by quantitative Mueller …
N Patil, J Soni, N Ghosh, P De
The Journal of Physical Chemistry B 116 (47), 13913-13921, 2012
222012
CdS quantum dots doped tuning of deswelling kinetics of thermoresponsive hydrogels based on poly (2-(2-methoxyethoxy) ethyl methacrylate)
N Patil, SG Roy, U Haldar, P De
The Journal of Physical Chemistry B 117 (50), 16292-16302, 2013
192013
Proton trap effect on catechol–pyridine redox polymer nanoparticles as organic electrodes for lithium batteries
A Gallastegui, D Minudri, N Casado, N Goujon, F Ruipérez, N Patil, ...
Sustainable Energy & Fuels 4 (8), 3934-3942, 2020
182020
Macromolecular engineering of poly (catechol) cathodes towards high-performance aqueous zinc-polymer batteries
N Patil, J Palma, R Marcilla
Polymers 13 (11), 1673, 2021
102021
An improved peg-based molecular crowding electrolyte using Zn (TFSI) 2 vs. Zn (OTf) 2 for aqueous Zn//V2O5 battery
DE Ciurduc, C de la Cruz, N Patil, A Mavrandonakis, R Marcilla
Materials Today Energy 36, 101339, 2023
82023
A significantly improved polymer|| Ni (OH) 2 alkaline rechargeable battery using anthraquinone-based conjugated microporous polymer anode
R Grieco, A Molina, JS Sanchez, N Patil, M Liras, R Marcilla
Materials Today Energy 27, 101014, 2022
82022
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