P
Pulickel M. Ajayan
Researcher at Rice University
Publications - 1304
Citations - 158640
Pulickel M. Ajayan is an academic researcher from Rice University. The author has contributed to research in topics: Carbon nanotube & Graphene. The author has an hindex of 176, co-authored 1223 publications receiving 136241 citations. Previous affiliations of Pulickel M. Ajayan include University of Hawaii at Manoa & University of Florida.
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Single-Walled Carbon Nanotube–Polymer Composites: Strength and Weakness
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Large Area Vapor Phase Growth and Characterization of MoS2 Atomic Layers on SiO2 Substrate
TL;DR: In this article, the authors demonstrate the large area growth of MoS2 atomic layers on SiO2 substrates by a scalable chemical vapor deposition (CVD) method and demonstrate that the number of layers range from single layer to a few layers.
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Capillarity-induced filling of carbon nanotubes
Pulickel M. Ajayan,Sumio lijima +1 more
TL;DR: In this article, the authors describe experiments in which annealing of the tubules in the presence of liquid lead results in opening of the capped tube ends and subsequent filling of the tubes with molten material through capillary action.
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Direct laser writing of micro-supercapacitors on hydrated graphite oxide films
Wei Gao,Neelam Singh,Li Song,Zheng Liu,Arava Leela Mohana Reddy,Lijie Ci,Robert Vajtai,Qing Zhang,Bingqing Wei,Pulickel M. Ajayan +9 more
TL;DR: This work demonstrates the scalable fabrication of a new type of all-carbon, monolithic supercapacitor by laser reduction and patterning of graphite oxide films, which show good cyclic stability, and energy storage capacities comparable to existing thin-filmsupercapacitors.
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Atomic cobalt on nitrogen-doped graphene for hydrogen generation
Huilong Fei,Juncai Dong,M. Josefina Arellano-Jiménez,Gonglan Ye,Nam Dong Kim,Errol L. G. Samuel,Zhiwei Peng,Zhuan Zhu,Fan Qin,Jiming Bao,Miguel Jose Yacaman,Pulickel M. Ajayan,Dongliang Chen,James M. Tour +13 more
TL;DR: An electrocatalyst for hydrogen generation based on very small amounts of cobalt dispersed as individual atoms on nitrogen-doped graphene is reported, which is robust and highly active in aqueous media with very low overpotentials.