H
Harry R. Allcock
Researcher at Pennsylvania State University
Publications - 692
Citations - 22652
Harry R. Allcock is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Phosphazene & Polyphosphazene. The author has an hindex of 70, co-authored 687 publications receiving 21651 citations. Previous affiliations of Harry R. Allcock include Ethyl Corporation & University of Akron.
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Synthesis, Physicochemical Analysis, and Side Group Optimization of Degradable Dipeptide-Based Polyphosphazenes as Potential Regenerative Biomaterials.
Kenneth S. Ogueri,Kenneth S. Ogueri,Jorge L. Escobar Ivirico,Jorge L. Escobar Ivirico,Zhongjing Li,Riley H Blumenfield,Harry R. Allcock,Cato T. Laurencin +7 more
TL;DR: Findings establish that cosubstitution of different side groups of polyphosphazenes and exploitation of the hydrogen-bonding capacity of peptide bonds in GEG offer a flexible tool that can be employed to make new and fascinating polymeric biomaterials with different and tailored properties that can suit different regenerative needs.
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Electrolyte infiltration in phosphazene-based dye-sensitized solar cells
Shih To Fei,Seung Hyun Anna Lee,Sean M. Pursel,James I. Basham,Andrew Hess,Craig A. Grimes,Mark W. Horn,Thomas E. Mallouk,Harry R. Allcock +8 more
TL;DR: In this paper, a study of phosphazene polymer and oligomer electrolyte infiltration into high surface area titanium dioxide electrodes and its effect on the performance of dye-sensitized solar cells is presented.
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Surface reaction of poly[bis(trifluoroethoxy)phosphazene] films by basic hydrolysis
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Reactivity and polymerization behavior of a pentachlorocyclocarbophosphazene, N3P2CCl5
Harry R. Allcock,Suzanne M. Coley,Ian Manners,Karyn B. Visscher,Masood Parvez,Oskar Nuyken,Gerhard Renner +6 more
TL;DR: The cyclic carbophosphazene N 3 P 2 CCl 5 reacts with sodium methoxide, sodium trifluoroethoxide, and sodium phenoxide to yield the corresponding pentaalkoxy- and pentakis(aryloxy)cyclocarbophphosphazenes as discussed by the authors.
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Phosphorus-nitrogen ring systems and high polymers. Mechanism of the reaction between alkyl or aryl Grignard reagents and hexachlorocyclotriphosphazene: an explanation of bicyclophosphazene formation
TL;DR: In this article, an understanding of the complex mechanisms that are followed when alkyl- or aryl Grignard reagents react with (NPC12)3 in tetrahydorfuran was obtained.