P
Paul O'Brien
Researcher at University of Manchester
Publications - 817
Citations - 31094
Paul O'Brien is an academic researcher from University of Manchester. The author has contributed to research in topics: Thin film & Chemical vapor deposition. The author has an hindex of 79, co-authored 808 publications receiving 28228 citations. Previous affiliations of Paul O'Brien include Massachusetts Institute of Technology & Hokkaido University.
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Nanocrystalline semiconductors: Synthesis, properties, and perspectives
TL;DR: In this article, the synthesis and study of so-called "nanoparticles" with diameters in the range of 1−20 nm, has become a major interdisciplinary area of research over the past 10 years.
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Understanding the factors that govern the deposition and morphology of thin films of ZnO from aqueous solution
TL;DR: In this paper, the influence of the choice of complexing ligand, zinc counter-ion, pH, ionic strength, supersaturation, deposition time and substrate on the nature of ZnO films grown from chemical baths (CBD) are discussed.
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Production of few-layer phosphorene by liquid exfoliation of black phosphorus
TL;DR: The liquid exfoliation of black phosphorus in N-methyl-2-pyrrolidone to form few-layer phosphorene nanosheets is reported.
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Synthesis, Properties, and Applications of Transition Metal-Doped Layered Transition Metal Dichalcogenides
TL;DR: In this paper, a review of the synthetic strategies that have been used to incorporate transition metals into TMDCs and the applications of the resultant materials and relevant computational studies on the predicted properties of the doped materials are presented.
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The association between sterilizing activity and drug distribution into tuberculosis lesions
Brendan Prideaux,Laura E. Via,Matthew D. Zimmerman,Seokyong Eum,Jansy Sarathy,Paul O'Brien,Chao Chen,Firat Kaya,Danielle M. Weiner,Pei-Yu Chen,Taeksun Song,Myungsun Lee,Tae Sun Shim,Jeong Su Cho,Wooshik Kim,Sang Nae Cho,Kenneth N. Olivier,Clifton E. Barry,Clifton E. Barry,Véronique Dartois +19 more
TL;DR: An alternative working model is proposed to prioritize new antibiotic regimens based on quantitative and spatial distribution of TB drugs in the major lesion types found in human lungs, and it is suggested that lesion penetration may contribute to treatment outcome.