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Specialty Interests:
Xie laboratory’s research interests center on the synthesis, surface modification, self-assembly of materials at nanometer scale to address problems in the field of tissue engineering, regenerative medicine and drug/gene delivery. Our research programs are built upon interdisciplinary subjects including materials science, engineering, biology and medicine. We develop novel, smart biomaterials with well-controlled composition, structure and functional properties. We employ analytical tools in materials science, biology and medicine to characterize these biomaterials as either scaffolds or drug/gene carriers. Specifically, we are interested in use of nano-structured materials together with signaling molecules to regulate cell/stem cell behaviors for regenerating various types of tissues including tendon-to-bone insertion site, cartilage, bone, skin, cardiac muscle, and nerve. We are also interested in developing nano-structured materials for enhancing survival, proliferation, and function of human islets in vitro and in vivo. Additionally, we are interested in developing nanofibrous materials as local drug delivery devices for prevention of surgical site infection.
Xie laboratory’s research interests center on the synthesis, surface modification, self-assembly of materials at nanometer scale to address problems in the field of tissue engineering, regenerative medicine and drug/gene delivery. Our research programs are built upon interdisciplinary subjects including materials science, engineering, biology and medicine. We develop novel, smart biomaterials with well-controlled composition, structure and functional properties. We employ analytical tools in materials science, biology and medicine to characterize these biomaterials as either scaffolds or drug/gene carriers. Specifically, we are interested in use of nano-structured materials together with signaling molecules to regulate cell/stem cell behaviors for regenerating various types of tissues including tendon-to-bone insertion site, cartilage, bone, skin, cardiac muscle, and nerve. We are also interested in developing nano-structured materials for enhancing survival, proliferation, and function of human islets in vitro and in vivo. Additionally, we are interested in developing nanofibrous materials as local drug delivery devices for prevention of surgical site infection.
研究兴趣
论文共 220 篇作者统计合作学者相似作者
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S. M. Shatil Shahriar,Alec D. McCarthy,Syed Muntazir Andrabi,Yajuan Su, Navatha Shree Polavoram,Johnson V. John,Mitchell P. Matis,Wuqiang Zhu,Jingwei Xie
Nature Communicationsno. 1 (2024): 1-15
Ultrasonics (2024): 107344-107344
Yajuan Su, Shatil S M Shahriar,Syed Muntazir Andrabi, Chenlong Wang, Navatha Shree Sharma, Yizhu Xiao, Shannon L Wong,Guangshun Wang,Jingwei Xie
Macromolecular bioscienceno. 5 (2024): e2300519-e2300519
Zeyu Luo,Liming Lian, Thiago Stocco,Jie Guo, Xuan Mei,Ling Cai, Syed Muntazir Andrabi,Yajuan Su,Guosheng Tang,Hossein Ravanbakhsh,Wanlu Li,Mian Wang,
ADVANCED FUNCTIONAL MATERIALSno. 4 (2024)
ACS OMEGAno. 8 (2024): 9765-9781
CHEMICAL ENGINEERING JOURNAL (2024): 150210
Yadong Xu,Zhilu Ye,Ganggang Zhao,Qihui Fei, Zehua Chen,Jiahong Li,Minye Yang,Yichong Ren,Benton Berigan,Yun Ling, Xiaoyan Qian, Lin Shi,
Syed Muntazir Andrabi, S.M. Shatil Shahriar, Al-Murtadha Al-Gahmi, Benjamin L. Wilczewski,Mark A. Carlson,Jingwei Xie
Bioactive Materials (2024): 154-168
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