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There currently exists no standard methodology for tuning surface properties of implantable medical devices. To address this need, we have designed a technology that provides thin coatings that can be readily tuned for specific implant applications using non-toxic, non-solvent, aqueous based green chemistry. The thin coatings are to be applied toward implantable medical devices and biosensors, which is currently limited. The surface modifications that our technology allows will address unmet needs in bioadhesive coatings, blood contacting surfaces, and substrates that promote a living skin-like layer for cloaking of medical implants.
Biographical Information
Dr. Terry W.J. Steele currently holds an Associate Professor position at Materials Science & Engineering-NTU. Currently he focuses energetic engineering students and graduate students into a research dream team, striving to solve today’s most pressing adhesion related ailments. Formerly, Dr. Steele has studied pulmonary drug delivery at the Philipps-Marburg University in Marburg, Germany and earned his PhD in Medicinal Chemistry at the University of Minnesota. His research interests include vascular medical devices, adhesives and biosensors.
Biographical Information
Dr. Terry W.J. Steele currently holds an Associate Professor position at Materials Science & Engineering-NTU. Currently he focuses energetic engineering students and graduate students into a research dream team, striving to solve today’s most pressing adhesion related ailments. Formerly, Dr. Steele has studied pulmonary drug delivery at the Philipps-Marburg University in Marburg, Germany and earned his PhD in Medicinal Chemistry at the University of Minnesota. His research interests include vascular medical devices, adhesives and biosensors.
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Ivan Djordjevic, Elizabeth Ellis,Juhi Singh, Naziruddin Ali, Edgar M. Pena, Ravisankar Rajarethinam, Lakshmanan Manikandan, Jason Goh,Sierin Lim,Terry Steele
Polymersno. 13 (2023): 2921-2921
ACS APPLIED POLYMER MATERIALSno. 2 (2023): 1440-1452
Materials Advancesno. 18 (2022): 7116-7124
Biomaterials advances (2022): 213174-213174
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