F
Fayis Kanheerampockil
Researcher at National Chemical Laboratory
Publications - 5
Citations - 245
Fayis Kanheerampockil is an academic researcher from National Chemical Laboratory. The author has contributed to research in topics: Electrode & Covalent organic framework. The author has an hindex of 2, co-authored 3 publications receiving 121 citations.
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Journal ArticleDOI
Inducing Disorder in Order: Hierarchically Porous Covalent Organic Framework Nanostructures for Rapid Removal of Persistent Organic Pollutants
Suvendu Karak,Suvendu Karak,Kaushik Dey,Arun Torris,Arjun Halder,Arjun Halder,Saibal Bera,Saibal Bera,Fayis Kanheerampockil,Rahul Banerjee +9 more
TL;DR: The induction of ordered micropores within the disordered 3D architecture synergistically renders fast diffusion of various guests through the interconnected pore network, which would lead to significant environmental benefit.
Journal ArticleDOI
Connecting Microscopic Structures, Mesoscale Assemblies, and Macroscopic Architectures in 3D-Printed Hierarchical Porous Covalent Organic Framework Foams
Abdul Khayum Mohammed,Saurabh Usgaonkar,Fayis Kanheerampockil,Suvendu Karak,Arjun Halder,Minakshi Minakshi Tharkar,Matthew Addicoat,Thalasseril G. Ajithkumar,Rahul Banerjee +8 more
TL;DR: 3D macro-architecture of COF-GO foams are engineered into complex geometries keeping their structural order and continuous porosity intact over a range of more than a million (10-9 m to 10-3 m).
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Role of particle morphology in the yielding behavior of dense thermosensitive microgel suspensions
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Cobalt-Manganese Modified Theophrastite Phase of Nickel Hydrox-ide Nanoflower Arrays on Nickel Foam as self-standing Bi-functional Electrode for Overall Water Electrolysis
Geeta Pandurang Kharabe,Rajith Illathvalappil,Fayis Kanheerampockil,Priyanka S. Walko,Suresh Bhat,R. Nandini Devi,Sreekumar Kurungot +6 more
TL;DR: In this article , a self-supported electrodes for water electrolysis is proposed, which anchors (Co0.3Mn0.1Ni0.6)(OH)2/NF nanocomposite by simple one-pot hydrothermal synthesis.
Journal ArticleDOI
Electrode|electrolyte interface enhancement in quasi-solid-state zinc–air batteries through an anion conducting polymer electrolyte interlayer by in situ polymerization
Mary Kurian,Vidyanand Vijayakumar,Narugopal Manna,Fayis Kanheerampockil,Suresh Bhat,Sreekumar Kurungot +5 more
TL;DR: In this article , a novel concept of UV light-assisted in situ polymerization at the electrode|electrolyte interface in combination with an anion-conducting polymer electrolyte membrane (AEPEM) was introduced to improve the performance of quasi-solid-state ZABs.