Journal Publications
- [1]Zhang Ge, Chen Yisong, ... & Huang, Qianli#, Liu Yong#. Superior Self-Lubricating Coatings with Heterogeneous Nanocomposite Structures on Ti–Nb–Zr–Ta–Hf Refractory Multi-Principal Element Alloy. Advanced Functional Materials, 2024: 2405657
- [2]Huang, Qianli*, Wan Jia*, et al. The effects of Ti and Ta particle surface chemistry on inflammation, osteogenesis and osteoclastogenesis in vitro and in vivo. Colloid and Interface Science Communications, 2023, 54: 100716.
- [3]He, Xiang, ... & Huang, Qianli#. Modulating the bactericidal activity and corrosion resistance of Al2O3 porous ceramics through Cu and Fe co-introduction for membrane support application. Materials Today Communications, 2023, 35: 105850.
- [4]Zhang Ge, ... & Huang, Qianli#. Oxide ceramic coatings with amorphous/nano-crystalline dual-structures prepared by micro-arc oxidation on Ti–Nb–Zr medium entropy alloy surfaces for biomedical applications. Ceramics International, 2023, 49.11: 18114-18124.
- [5]Zhang Ge, Khanlari Khash, Huang Shan, ... & Huang, Qianli#. Dual-structured oxide coatings with enhanced wear and corrosion resistance prepared by plasma electrolytic oxidation on Ti-Nb-Ta-Zr-Hf high-entropy alloy. Surface and Coatings Technology, 2023, 129254.
- [6]He Xiang, Liu Bowei, Liu Yong, Huang Qianli#. Enhanced mechanical strength and bactericidal activity of macro-porous Al2O3 ceramics through the introduction of Cu for membrane support application. Ceramics International, 2022, 48.17: 24393-24401.
- [7]Liang Luxin, Song Deye ,Wu Kai Wu, Ouyang Zhengxiao, Huang Qianli#, Lei Guanghua, Zhou Kun, Xiao Jian#, Wu Hong#. Sequential activation of M1 and M2 phenotypes in macrophages by Mg degradation from Ti-Mg alloy for enhanced osteogenesis. Biomaterials research, 2022, 26(1): 1-19.
- [8]Yang Yucheng*, Yaojia Ren*, Tian Yanwen, Li Kaiyang, Bai Lichun, Huang Qianli#, Shan Quan#, Tian Yingtao, Wu Hong#. Microstructure and tribological behaviors of FeCoCrNiMoSix high-entropy alloy coatings prepared by laser cladding. Surface and Coatings Technology, 2022, 432: 128009.
- [9]Liang Luxin*, Huang Qianli*, Wu Hong#, He Hao#, Lei Guanghua, Zhao Dapeng, Zhou Kun. Engineering nano-structures with controllable dimensional features on micro-topographical titanium surfaces to modulate the activation degree of M1 macrophages and their osteogenic potential. Journal of Materials Science & Technology, 2022, 96: 167-178.
- [10]Yang Yucheng, Ren Yaojia, Tian Yanwen, Li Kaiyang, Zhang Weidong, Shan Quan#, Tian Yingtao, Huang Qianli#, Wu Hong#. Microstructure and properties of FeCoCrNiMoSix high-entropy alloys fabricated by spark plasma sintering. Journal of Alloys and Compounds, 2021, 884: 161070.
- [11]Wu Hong, Yang Si, Xiao Jian, Ouyang Zhengxiao, Yang Minghua, Zhang Mingming, Zhao Dapeng, Huang Qianli#. Facile synthesis of multi-functional nano-composites by precise loading of Cu2+ onto MgO nano-particles for enhanced osteoblast differentiation, inhibited osteoclast formation and effective bacterial killing. Materials Science and Engineering: C, 2021, 130: 112442.
- [12]Liu Wentao, Liang Luxin, Liu Bo#, Zhao Dapeng, Tian Yingtao, Huang Qianli#, Wu Hong#. The response of macrophages and their osteogenic potential modulated by micro/nano-structured Ti surfaces. Colloids and Surfaces B: Biointerfaces, 2021, 205: 111848.
- [13]Yang Si, Liang Luxin, Liu Ling, Yin Yong, Liu Yong, Lei Guanghua, Zhou Kun, Huang Qianli#, Wu Hong#. Using MgO nanoparticles as a potential platform to precisely load and steadily release Ag ions for enhanced osteogenesis and bacterial killing. Materials Science and Engineering: C, 2021, 119: 111399.
- [14]Huang Qianli*, Xu Shenghang*, Ouyang Zhengxiao, Yang Yan, Liu Yong#. Multi-scale nacre-inspired lamella-structured Ti-Ta composites with high strength and low modulus for load-bearing orthopedic and dental applications. Materials Science and Engineering: C, 2021, 118: 111458.
- [15]Ren Yaojia, Liang Luxin, Shan Quan#, Anhui Cai, Du Jingguang, Huang Qianli#, Liu Shifeng, Yang Xin, Tian Yingtao, Wu Hong#. Effect of volumetric energy density on microstructure and tribological properties of FeCoNiCuAl high-entropy alloy produced by laser powder bed fusion. Virtual and Physical Prototyping, 2020, 15(sup1): 543-554.
- [16]Huang Qianli#, Liu Yuansheng, Ouyang zhengxiao, Feng Qingling#. Comparing the regeneration potential between PLLA/Aragonite and PLLA/Vaterite pearl composite scaffolds in rabbit radius segmental bone defects. Bioactive Materials, 2020, 5.4: 980-989.
- [17]Li Xuezhong*, Huang Qianli*, Hu Xiaobo, Wu Dengke, Li Nianfeng, Liu Yong, Li Qingxiang and Wu Hong#. Evaluating the osteoimmunomodulatory properties of micro-arc oxidized titanium surface at two different biological stages using an optimized in vitro cell culture strategy. Materials Science and Engineering: C, 2020, 110: 110722.
- [18]Huang Qianli, Liu Ling#, Wu Hong, Li Kaimo, Li Nianfeng, Liu Yong. The design, development, and in vivo performance of intestinal anastomosis ring fabricated by magnesium?zinc?strontium alloy. Materials Science and Engineering: C, 2020, 106: 110158.
- [19]Huang Qianli, Ouyang Zhengxiao, Tan Yanni, Wu Hong, Liu Yong#. Activating macrophages for enhanced osteogenic and bactericidal performance by Cu ion release from micro/nano-topographical coating on a titanium substrate. Acta Biomaterialia, 2019, 100: 415-426.
- [20]Ouyang Sihui, Huang Qianli#, Liu Yong#, Ouyang Zhengxiao, Liang Luxin. Powder metallurgical Ti-Mg metal-metal composites facilitate osteoconduction and osseointegration for orthopedic application. Bioactive Materials, 2019, 4: 37-42.
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黄千里
Postal Address:9dc17098576e842385e3cfc5e6ce55e151119b62b3a6ffaaa2f7726d3fbc2d33365250f9abfc308ba940fed6c2e201f8e4335188062731608af86cb47117e0b10bad68dd480a8872081d30ea59cb0c31ea46c75f6328f2a2a2ca08363df701c1d179a0598f4ead52d9a42cfca63f0be78118b2e58cb1c7730f1c3d426aa5e667
Mobile:7c4f52fb605ce668b0c0daed2c128a2db135521d1bff9be0aad76a79f2e007dfd9da411a22c226d9d131bc453c39ac05f547474dc25986bf07071fe4bd015fd123b3a2fa412fbbe2221acb2108831fd38b8b44cd3cae4ab5b8d57c690579e31425d4d2777a3054df9820fd3ffff791f52c8aa8571e9f106456254d7423133917
Email:44745235a3db211ff5657f9b7098d1da065120695427fbf911a70b79593d8c44816344ed75eb0769a85358cc5c9a95bf1d97791269ff69fb36cc97ffbad3f28376a8b9ec68a0553b7cc76889b62ad05f50264b3fd3388e27684328cd10a7c8c8c1a75bac1948fe27ffcf5bb10f127e8af411ef29eafe7455a90a04e582dbf790
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