G
Gilbert Daniel Nessim
Researcher at Bar-Ilan University
Publications - 84
Citations - 2178
Gilbert Daniel Nessim is an academic researcher from Bar-Ilan University. The author has contributed to research in topics: Carbon nanotube & Catalysis. The author has an hindex of 19, co-authored 71 publications receiving 1623 citations. Previous affiliations of Gilbert Daniel Nessim include Massachusetts Institute of Technology.
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Properties, synthesis, and growth mechanisms of carbon nanotubes with special focus on thermal chemical vapor deposition
TL;DR: Important considerations for in situ characterization and new reactor designs that may enable researchers to better understand the physical growth mechanisms and to optimize the synthesis of CNTs are illustrated, thus contributing to make carbon nanotubes a manufacturing reality.
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Tuning of vertically-aligned carbon nanotube diameter and areal density through catalyst pre-treatment.
Gilbert Daniel Nessim,A. John Hart,Jin S. Kim,D. Acquaviva,Jihun Oh,Caitlin D. Morgan,Matteo Seita,J. Leib,Carl V. Thompson +8 more
TL;DR: By controlling the timing and duration of hydrogen exposure in a fixed thermal process, the diameters of carbon nanotubes within a vertically aligned film are Tuned by a factor of 2, and the areal densities are tuned by an order of magnitude.
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Low Temperature Synthesis of Vertically Aligned Carbon Nanotubes with Electrical Contact to Metallic Substrates Enabled by Thermal Decomposition of the Carbon Feedstock
Gilbert Daniel Nessim,Matteo Seita,O'brien Kevin P,A. John Hart,Ryan K. Bonaparte,Robert R. Mitchell,Carl V. Thompson +6 more
TL;DR: Growth of vertically aligned carbon nanotube (CNT) carpets on metallic substrates at low temperatures was achieved by controlled thermal treatment of ethylene and hydrogen at a temperature higher than the substrate temperature.
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One-Step Synthesis of N-Doped Graphene Quantum Dots from Chitosan as a Sole Precursor Using Chemical Vapor Deposition
TL;DR: In this paper, a simple, environment-friendly, and fast synthesis of nitrogen-doped graphene quantum dots (N-GQDs) on copper foil by chemical vapor deposition using exclusively chitosan, a cheap and nontoxic biopolymer, as a carbon and nitrogen precursor.
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Strong Light-Matter Coupling and Hybridization of Molecular Vibrations in a Low-Loss Infrared Microcavity.
TL;DR: This system marks the first demonstration of polariton hybridization between a solid and solvent molecules and can open new paths toward chemical reaction modification and energy transfer studies in the mid-infrared spectral range.