G
Gin Keat Lim
Researcher at Universiti Sains Malaysia
Publications - 25
Citations - 486
Gin Keat Lim is an academic researcher from Universiti Sains Malaysia. The author has contributed to research in topics: Rietveld refinement & Crystal structure. The author has an hindex of 11, co-authored 22 publications receiving 394 citations. Previous affiliations of Gin Keat Lim include Cardiff University.
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Journal ArticleDOI
An adaptable and dynamically porous organic salt traps unique tetrahalide dianions.
Javier Martí-Rujas,Lorenzo Meazza,Gin Keat Lim,Gin Keat Lim,Giancarlo Terraneo,Tullio Pilati,Kenneth D. M. Harris,Pierangelo Metrangolo,Giuseppe Resnati +8 more
TL;DR: The cavity-directed reactivity ofbis(I2) adducts of hexamethonium dihalides affords new opportunities for synthesis and interconversion of polyhalogen anions.
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The crystal structure of L-arginine.
Emilie Courvoisier,Emilie Courvoisier,P. Andrew Williams,Gin Keat Lim,Colan E. Hughes,Kenneth D. M. Harris +5 more
TL;DR: The crystal structure of L-arginine is reported, one of the last remaining natural amino acids for which the crystal structure has never been determined; structure determination was carried out directly from powder X-ray diffraction data, exploiting the direct-space genetic algorithm technique for structure solution followed by Rietveld refinement.
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Discovery of a New System Exhibiting Abundant Polymorphism: m-Aminobenzoic Acid
TL;DR: In this paper, the preparation strategies and structural properties of three new polymorphs (denoted Forms III, IV, and V) of m-aminobenzoic acid (m-ABA) are reported, elevating this system to the rare class of polymorphic systems with at least five known polymorphs.
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The engineering properties and microstructure development of cement mortar containing high volume of inter-grinded GGBS and PFA cured at ambient temperature
TL;DR: In this article, the authors aimed to maximize the level of cement replacement of ground granulated blast furnace slag and pulverized fuel ash in the production of cement mortar through hybridization and mechanical activation.
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Efficient, Scalable, and Solvent-free Mechanochemical Synthesis of the OLED Material Alq3 (q = 8-Hydroxyquinolinate)
Xiaohe Ma,Gin Keat Lim,Gin Keat Lim,Kenneth D. M. Harris,David C. Apperley,Peter N. Horton,Michael B. Hursthouse,Stuart L. James +7 more
TL;DR: In this paper, the aluminum complex Alq3 (q = 8-hydroxyquinolinate), which has important applications in organic light-emitting diode materials, is shown to be readily synthesized as a pure phase under solvent-free mechanochemical conditions from Al(OAc)2OH and 8-Hydroxyquinoline by ball milling.