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个人简介
My academic strengths lie in my research. This is reflected in my research citations of 32,000 and an h-index of 98 as of11/06/2023). I have for the past 15 years pursued the development of novel materials for hard and soft tissue regeneration.
A significant proportion of my work focusses on soluble glasses and is proving very successful and has attracted a significant amount of sponsorship from the research councils (BBSRC and EPSRC and MRC) and also industrially. The work has made some significant contributions to the understanding of the materials and in particular the degradation processes where the current view in the literature has been shown to incompletely model the degradation process occurring. This has important consequences if the material is to be used in vivo. The work has also developed the materials as novel antibacterial agents using copper and silver as potential antibacterial ions. The work has shown that whilst very high levels of the ions may be released, the bacteria which form colonies are able to form sacrificial layers to inhibit ion release. Recent work funded with two large grants by the EPSRC and collaboration with the Universities of Kent and Warwick has seen further developments of the glasses in sol-gel form and also applied a largoe portfolio of high end techniques such as NMR and neutron diffraction. This work has had an unprecedented output with almost 50 papers in three years and this includes some of the highest impact factor papers, including Advanced Materials and Advanced Functional Materials.
A significant proportion of my work focusses on soluble glasses and is proving very successful and has attracted a significant amount of sponsorship from the research councils (BBSRC and EPSRC and MRC) and also industrially. The work has made some significant contributions to the understanding of the materials and in particular the degradation processes where the current view in the literature has been shown to incompletely model the degradation process occurring. This has important consequences if the material is to be used in vivo. The work has also developed the materials as novel antibacterial agents using copper and silver as potential antibacterial ions. The work has shown that whilst very high levels of the ions may be released, the bacteria which form colonies are able to form sacrificial layers to inhibit ion release. Recent work funded with two large grants by the EPSRC and collaboration with the Universities of Kent and Warwick has seen further developments of the glasses in sol-gel form and also applied a largoe portfolio of high end techniques such as NMR and neutron diffraction. This work has had an unprecedented output with almost 50 papers in three years and this includes some of the highest impact factor papers, including Advanced Materials and Advanced Functional Materials.
研究兴趣
论文共 578 篇作者统计合作学者相似作者
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Tianyi Tang, Rachel Wandless,Zalike Keskin-Erdogan,Nandin-Erdene Mandakhbayar,Jeong-Hui Park,Hae-Won Kim, Morgana Abramchuk, Felipe P. Daltoe,Jonathan C. Knowles
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINEno. 1 (2024): 33-33
Journal of biomedical materials research. Part B, Applied biomaterialsno. 7 (2024): e35441-e35441
Journal of biomedical materials research. Part Ano. 7 (2024): 1070-1082
Farzad Foroutan,Isaac Abrahams,Glen J. Smales,Nasima Kanwal, Roberto di Pasquale,Jonathan C. Knowles, Andy Smith,Daniela Carta
Ceramics International (2024)
Dolphee Khurana, Ankitha Suresh, Raghavendra Nayak, Manjunath Shetty, Rohit Kumar Sarda,Jonathan C. Knowles,Hae-Won Kim,Rajendra K. Singh,Bhisham Narayan Singh
JOURNAL OF TISSUE ENGINEERING (2024): 20417314241228118-20417314241228118
Cureusno. 6 (2024): e62921-e62921
Yu-Meng Li,Yunseong Ji, Yu-Xuan Meng, Yu-Jin Kim,Hwalim Lee,Amal George Kurian,Jeong-Hui Park,Ji-Young Yoon,Jonathan C Knowles,Yunkyu Choi, Yoon-Sik Kim,Bo-Eun Yoon,
Advanced science (Weinheim, Baden-Wurttemberg, Germany)pp.e2400586-e2400586, (2024)
Macromolecular biosciencepp.e2400073-e2400073, (2024)
TISSUE ENGINEERING PART Ano. 13-14 (2023)
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