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2024 Journal Article Natural agents derived Pickering emulsion enabled by silica nanoparticles with enhanced antibacterial activity against drug-resistant bacteriaYao, Yining, Feng, Jiayou, Ao, Niqi, Zhang, Ye, Zhang, Jun, Wang, Yue, Liu, Chao, Wang, Meiyan and Yu, Chengzhong (2024). Natural agents derived Pickering emulsion enabled by silica nanoparticles with enhanced antibacterial activity against drug-resistant bacteria. Journal of Colloid and Interface Science, 678, 1158-1168. doi: 10.1016/j.jcis.2024.09.066 |
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2024 Journal Article Quaternary ammonium compounds and their composites in antimicrobial applicationsYao, Yining, Ye, Zilin, Zhang, Yue, Wang, Yue and Yu, Chengzhong (2024). Quaternary ammonium compounds and their composites in antimicrobial applications. Advanced Materials Interfaces, 11 (17). doi: 10.1002/admi.202300946 |
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2024 Journal Article Engineered silica nanoparticles for nucleic acid deliveryZhang, Yue, Yu, Yingjie, Yang, Yannan, Wang, Yue and Yu, Chengzhong (2024). Engineered silica nanoparticles for nucleic acid delivery. Small Methods, 8 (3) 2300812. doi: 10.1002/smtd.202300812 |
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2024 Journal Article A core–shell‐structured zeolitic imidazolate framework@cationic antimicrobial agent templated silica nanocomposite for tackling antibiotic resistant bacteria infectionKan, Qihui, Song, Yaping, Yao, Yining, Zhang, Jun, Xian, He, Cheng, Dan, Wang, Yue, Mao, Liang, Wang, Meiyan and Yu, Chengzhong (2024). A core–shell‐structured zeolitic imidazolate framework@cationic antimicrobial agent templated silica nanocomposite for tackling antibiotic resistant bacteria infection. Aggregate, 5 (3). doi: 10.1002/agt2.523 |
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2023 Journal Article Engineering crystallinity gradients for tailored CaO2 nanostructures: enabling alkalinity-reinforced anticancer activity with minimized Ca2+/H2O2 productionShi, Yiru, Dai, Zan, Wang, Yue, Luo, Jiangqi, Cai, Larry, Tang, Jie, Yu, Chengzhong and Yang, Yannan (2023). Engineering crystallinity gradients for tailored CaO2 nanostructures: enabling alkalinity-reinforced anticancer activity with minimized Ca2+/H2O2 production. Nano Letters, 23 (23), 10657-10666. doi: 10.1021/acs.nanolett.3c01963 |
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2023 Journal Article Mesoporous Organosilica Nanoparticles with Tetrasulphide Bond to Enhance Plasmid DNA DeliveryZhang, Yue, Xian, He, Strounina, Ekaterina, Gunther, Kimberley S., Sweet, Matthew J., Chen, Chen, Yu, Chengzhong and Wang, Yue (2023). Mesoporous Organosilica Nanoparticles with Tetrasulphide Bond to Enhance Plasmid DNA Delivery. Pharmaceutics, 15 (3) 1013, 1-11. doi: 10.3390/pharmaceutics15031013 |
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2023 Journal Article Nanobiotechnology-enabled mRNA stabilizationXian, He, Zhang, Yue, Yu, Chengzhong and Wang, Yue (2023). Nanobiotechnology-enabled mRNA stabilization. Pharmaceutics, 15 (2) 620, 620. doi: 10.3390/pharmaceutics15020620 |
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2022 Journal Article Synthesis of mesoporous organosilica nanoparticles with a high tetrasulphide content and large poresZhang, Yue, Wang, Yue, Song, Yaping, Luo, Jiangqi, Yu, Yingjie and Yu, Chengzhong (2022). Synthesis of mesoporous organosilica nanoparticles with a high tetrasulphide content and large pores. Microporous and Mesoporous Materials, 346 112316, 112316. doi: 10.1016/j.micromeso.2022.112316 |
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2022 Journal Article Cationic and anionic antimicrobial agents co-templated mesostructured silica nanocomposites with a spiky nanotopology and enhanced biofilm inhibition performanceSong, Yaping, Sun, Qiang, Luo, Jiangqi, Kong, Yueqi, Pan, Bolin, Zhao, Jing, Wang, Yue and Yu, Chengzhong (2022). Cationic and anionic antimicrobial agents co-templated mesostructured silica nanocomposites with a spiky nanotopology and enhanced biofilm inhibition performance. Nano-Micro Letters, 14 (1) 83, 83. doi: 10.1007/s40820-022-00826-4 |
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2022 Journal Article Mesoporous sodium four-coordinate aluminosilicate nanoparticles modulate dendritic cell pyroptosis and activate innate and adaptive immunityTang, Jie, Yang, Yang, Qu, Jingjing, Ban, Wenhuang, Song, Hao, Gu, Zhengying, Yang, Yannan, Cai, Larry, Theivendran, Shevanuja, Wang, Yue, Zhang, Min and Yu, Chengzhong (2022). Mesoporous sodium four-coordinate aluminosilicate nanoparticles modulate dendritic cell pyroptosis and activate innate and adaptive immunity. Chemical Science, 13 (29), 8507-8517. doi: 10.1039/d1sc05319a |
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2022 Journal Article Dendritic mesoporous nanoparticles: structure, synthesis and propertiesXu, Chun, Lei, Chang, Wang, Yue and Yu, Chengzhong (2022). Dendritic mesoporous nanoparticles: structure, synthesis and properties. Angewandte Chemie International Edition, 61 (12) e202112752, 1-22. doi: 10.1002/anie.202112752 |
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2022 Journal Article Dendritic mesoporous nanoparticles: structure, synthesis and propertiesXu, Chun, Lei, Chang, Wang, Yue and Yu, Chengzhong (2022). Dendritic mesoporous nanoparticles: structure, synthesis and properties. Angewandte Chemie, 134 (12) e202112752, 1-22. doi: 10.1002/ange.202112752 |
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2021 Journal Article Submicron-sized vermiculite assisted oregano oil for controlled release and long-term bacterial inhibitionKothalawala, Sukitha Geethma, Zhang, Jun, Wang, Yue and Yu, Chengzhong (2021). Submicron-sized vermiculite assisted oregano oil for controlled release and long-term bacterial inhibition. Antibiotics, 10 (11) 1324, 1324. doi: 10.3390/antibiotics10111324 |
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2021 Journal Article Calcium-doped silica nanoparticles mixed with phosphate-doped silica nanoparticles for rapid and stable occlusion of dentin tubulesCao, Yuxue, Xu, Chun, Wright, Patricia P., Liu, Jingyu, Kong, Yueqi, Wang, Yue, Huang, Xiaodan, Song, Hao, Fu, Jianye, Gao, Fang, Liu, Yang, Walsh, Laurence J. and Lei, Chang (2021). Calcium-doped silica nanoparticles mixed with phosphate-doped silica nanoparticles for rapid and stable occlusion of dentin tubules. ACS Applied Nano Materials, 4 (9) acsanm.1c01365, 8761-8769. doi: 10.1021/acsanm.1c01365 |
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2021 Journal Article Ferroptosis-strengthened metabolic and inflammatory regulation of tumor-associated macrophages provokes potent tumoricidal activitiesGu, Zhengying, Liu, Tianqing, Liu, Chao, Yang, Yannan, Tang, Jie, Song, Hao, Wang, Yue, Yang, Yang and Yu, Chengzhong (2021). Ferroptosis-strengthened metabolic and inflammatory regulation of tumor-associated macrophages provokes potent tumoricidal activities. Nano Letters, 21 (15) acs.nanolett.1c01401, 6471-6479. doi: 10.1021/acs.nanolett.1c01401 |
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2021 Journal Article Benzene-bridged organosilica modified mesoporous silica nanoparticles via an acid-catalysis approachZhang, Ye, Gu, Zhengying, Liu, Yang, Hu, Wenli, Liu, Chao, Shu, Weikang, Wang, Yue and Yu, Chengzhong (2021). Benzene-bridged organosilica modified mesoporous silica nanoparticles via an acid-catalysis approach. Langmuir, 37 (8), 2780-2786. doi: 10.1021/acs.langmuir.0c03541 |
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2020 Journal Article Emerging concepts of nanobiotechnology in mRNA deliveryWang, Yue and Yu, Chengzhong (2020). Emerging concepts of nanobiotechnology in mRNA delivery. Angewandte Chemie International Edition, 59 (52) anie.202003545, 23374-23385. doi: 10.1002/anie.202003545 |
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2020 Journal Article Openwork@Dendritic mesoporous silica nanoparticles for lactate depletion and tumor microenvironment regulationTang, Jie, Meka, Anand Kumar, Theivendran, Shevanuja, Wang, Yue, Yang, Yannan, Song, Hao, Fu, Jianye, Ban, Wenhuang, Gu, Zhengying, Lei, Chang, Li, Shumin and Yu, Chengzhong (2020). Openwork@Dendritic mesoporous silica nanoparticles for lactate depletion and tumor microenvironment regulation. Angewandte Chemie International Edition, 59 (49) anie.202001469, 22054-22062. doi: 10.1002/anie.202001469 |
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2020 Journal Article Confined growth of ZIF-8 in dendritic mesoporous organosilica nanoparticles as bio-regulators for enhanced mRNA delivery in vivoWang, Yue, Song, Hao, Liu, Chao, Zhang, Ye, Kong, Yueqi, Tang, Jie, Yang, Yannan and Yu, Chengzhong (2020). Confined growth of ZIF-8 in dendritic mesoporous organosilica nanoparticles as bio-regulators for enhanced mRNA delivery in vivo. National Science Review, 8 (8) nwaa268, 1-10. doi: 10.1093/nsr/nwaa268 |
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2020 Journal Article Moderne Konzepte der Nanobiotechnologie für mRNA‐AbgabesystemeWang, Yue and Yu, Chengzhong (2020). Moderne Konzepte der Nanobiotechnologie für mRNA‐Abgabesysteme. Angewandte Chemie, 132 (52) ange.202003545, 23578-23590. doi: 10.1002/ange.202003545 |
