M
Mohammad Islam
Researcher at King Saud University
Publications - 221
Citations - 11094
Mohammad Islam is an academic researcher from King Saud University. The author has contributed to research in topics: Carbon nanotube & Thin film. The author has an hindex of 44, co-authored 192 publications receiving 9721 citations. Previous affiliations of Mohammad Islam include National Institute of Standards and Technology & Mississippi State University.
Papers
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Synthesis of ZnO nanostructures for low temperature CO and UV sensing.
TL;DR: Comb-like structure based gas sensors successfully detect CO at 75 °C while other structures did not show any response and it was observed that the sensing response of comb-like structures for UV light was greater as compared to the other grown structures.
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Superelastic Pseudocapacitors from Freestanding MnO2 Decorated Graphene-Coated Carbon Nanotube Aerogels
TL;DR: These capacitors display the feasibility of coating graphene-coated single-walled carbon nanotube aerogels with various pseudocapacitive materials to create superelastic energy-storage devices.
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Preformed Nanoporous Carbon Nanotube Scaffold-Based Multifunctional Polymer Composites
Youngseok Oh,Mohammad Islam +1 more
TL;DR: This work integrated preformed hydrogels and aerogels of individually dispersed nanotubes with polymer to increase elastic modulus of composites according to Halpin-Tsai model up to at least 25 vol % of nanotube, and suppressed the polymer glass transition and extended the mechanical integrity of polymer well above its polymer melting point.
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Not all protein-mediated single-wall carbon nanotube dispersions are equally bioactive.
TL;DR: The quality of SWCNT-protein dispersions in water does not necessarily correlate with bulk cellular uptake, and quantification at the level of individual cells is required to determine delivery efficacy.
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Influence of plasma functionalization treatment and gold nanoparticles on surface chemistry and wettability of reactive-sputtered TiO2 thin films
TL;DR: Amorphous titanium oxide (TiO2) thin films were deposited on silicon substrates by DC-magnetron sputtering at room temperature as discussed by the authors, and the surface of thin film were treated in argon plasma admixed with ammonia or nitrogen or oxygen or hydrogen.