H
Hairong Wang
Researcher at Wuhan University of Science and Technology
Publications - 9
Citations - 1291
Hairong Wang is an academic researcher from Wuhan University of Science and Technology. The author has contributed to research in topics: Nanotube & Anatase. The author has an hindex of 7, co-authored 8 publications receiving 1158 citations. Previous affiliations of Hairong Wang include Huazhong University of Science and Technology.
Papers
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Journal ArticleDOI
Antibacterial nano-structured titania coating incorporated with silver nanoparticles.
Lingzhou Zhao,Hairong Wang,Kaifu Huo,Kaifu Huo,Lingyun Cui,Wenrui Zhang,Hongwei Ni,Yumei Zhang,Zhifen Wu,Paul K. Chu +9 more
TL;DR: Titanium (Ti) implants are widely used clinically but post-operation infection remains one of the most common and serious complications and a surface boasting long-term antibacterial ability is highly desirable in order to prevent implant associated infection.
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Osteogenic activity and antibacterial effects on titanium surfaces modified with Zn-incorporated nanotube arrays.
TL;DR: The suitable NT-Zn coatings with good intrinsic antibacterial properties can prevent post-operation infection and excellent osteogenesis inducing ability in the absence of extraneous osteogenic supplements is demonstrated and the ERK1/2 signaling is found to be involved.
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The osteogenic activity of strontium loaded titania nanotube arrays on titanium substrates.
Lingzhou Zhao,Hairong Wang,Kaifu Huo,Kaifu Huo,Xuming Zhang,Wei Wang,Yumei Zhang,Zhifen Wu,Paul K. Chu +8 more
TL;DR: Strontium (Sr) loaded nanotubular structures that allow controlled and long-term Sr release are expected to yield favorable osteogenic effects and properties and NT10-Sr3 which shows excellent osteogenic properties is very attractive and has large clinical potential.
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Heterostructured TiO2 Nanoparticles/Nanotube Arrays: In Situ Formation from Amorphous TiO2 Nanotube Arrays in Water and Enhanced Photocatalytic Activity
TL;DR: In this article, the phase and morphology transformation of the as-anodized amorphous TiO2 nanotube in water can be attributed to a water-induced dissolution and recrystallization mechanism in which the As-Anodized Amorphous NPs are gradually self-sacrificed, and then spontaneously morph into the composite NPs/NTAs structure.
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Controlled fabrication of core-shell TiO2/C and TiC/C nanofibers on Ti foils and their field-emission properties.
TL;DR: The enhanced field-emission property of the TiC/C nanofibers is attributed to the high electrical and thermal conductivity of theTiC inner core, which provides a more effective electron transfer pathway between the cathode and C shell emitters.