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Christie Ying Kei Lung
Researcher at University of Hong Kong
Publications - 35
Citations - 1470
Christie Ying Kei Lung is an academic researcher from University of Hong Kong. The author has contributed to research in topics: Silane & Coating. The author has an hindex of 14, co-authored 29 publications receiving 1066 citations. Previous affiliations of Christie Ying Kei Lung include International Islamic University Malaysia.
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Aspects of silane coupling agents and surface conditioning in dentistry: An overview
TL;DR: An overview of aspects of silane coupling agents and surface conditioning in dentistry is given to give an overview of the current surface conditioning methods as well as new surface conditioning techniques to enhance the bonding through conventional silanization approaches.
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Silane adhesion mechanism in dental applications and surface treatments: A review.
TL;DR: Development of new silane coupling agents, their optimization, and surface treatment methods are in progress to address the long term resin bond durability and are highly important.
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Minimization of the inevitable residual monomer in denture base acrylic
TL;DR: The rate of diffusive loss of MMA appears to exceed the rate of depolymerization, and it is suggested that overnight processing at 95 degrees C should be adopted to minimize [MMA](R) and save energy.
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Effect of silanization of hydroxyapatite fillers on physical and mechanical properties of a bis-GMA based resin composite.
TL;DR: The results showed that the water sorption for nHAP fillers reinforced resins was significantly lower than unfilled resins and the surface hardness for resins reinforced with silane treated fillers was superior to unfilled and untreated fillers resins.
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Resin zirconia bonding promotion with some novel coupling agents
TL;DR: The silane coupling agent, 3-acryloxypropyltrimethoxysilane, showed the highest bond strength of the three storage conditions and XPS analysis showed a shift in binding energy for O(1s) after priming with the five coupling agents which revealed different bond formations related to the functional groups of the coupling agents.