G
Gary D. Enright
Researcher at National Research Council
Publications - 150
Citations - 5909
Gary D. Enright is an academic researcher from National Research Council. The author has contributed to research in topics: Laser & Crystal structure. The author has an hindex of 40, co-authored 150 publications receiving 5648 citations. Previous affiliations of Gary D. Enright include Carleton University & University of Calgary.
Papers
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Journal ArticleDOI
Single-molecule magnet behavior for an antiferromagnetically superexchange-coupled dinuclear dysprosium(III) complex.
Jérôme Long,Fatemah Habib,Po-Heng Lin,Ilia Korobkov,Gary D. Enright,Liviu Ungur,Wolfgang Wernsdorfer,Liviu F. Chibotaru,Muralee Murugesu +8 more
TL;DR: The Dy(2) complex is an ideal candidate for the elucidation of slow relaxation of the magnetization mechanism seen in lanthanide systems.
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Synthesis, Structure, and Electroluminescence of BR2q (R = Et, Ph, 2-Naphthyl and q = 8-Hydroxyquinolato)
Qingguo Wu,Mohammad Esteghamatian,Nan-Xing Hu,Zoran B. Popović,Gary D. Enright,Ye Tao,‖ and Marie D'Iorio,Suning Wang +7 more
TL;DR: In this paper, three 8-hydroxyquinolato (q) boron compounds B(C2H5)2q (1), BPh2q 2q (2), and B(2-naph)2qs (3) have been synthesized by the reaction of 8-oxoquinoline with an appropriate BR3 compound, and their electroluminescent properties were examined by fabricating EL devices using 2 and 3 as the light emitting layer, respectively.
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Iridium luminophore complexes for unimolecular oxygen sensors.
Maria C. DeRosa,Derek J. Hodgson,Gary D. Enright,Brian A. Dawson,Christopher E. B. Evans,Robert J. Crutchley +5 more
TL;DR: A series of novel luminescent cyclometalated Ir(III) complexes has been synthesized and evaluated for use in unimolecular oxygen-sensing materials and are the most promising candidates for future luminescence-quenching-based oxygen-Sensing studies.
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Multifunctional Nano-Architecture for Biomedical Applications
Dongling Ma,Jingwen Guan,François Normandin,Stéphane Dénommée,Gary D. Enright,Teodor Veres,Benoit Simard +6 more
TL;DR: In this paper, a multifunctional architecture for biomedical applications has been developed by deliberately combining the useful functions of superparamagnetism, luminescence, and surface functionality into one material.
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Mechanical Gas Capture and Release in a Network Solid via Multiple Single-Crystalline Transformations
Brett D. Chandler,Gary D. Enright,Konstantin A. Udachin,Shane Pawsey,John A. Ripmeester,David T. Cramb,George K. H. Shimizu +6 more
TL;DR: An open-channel metal-organic framework that, on dehydration, shifts structure to form closed pores in the solid to represent a thermally robust and porous material that is also capable of dynamically capturing and releasing gas in a controlled manner.