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SUMMARY Much of what we know regarding bacterial spore structure and function has been learned from studies of the genetically well-characterized bacterium Bacillus subtilis. Dr. Nicholas Peppas, the Cockrell Family Regents Chair in Engineering at the University of Texas at Austin and member of the National Academy of Engineering and National Academy of Medicine presented, The Promise of Biotechnology: Solving Scientific Puzzles in Biomaterials and Drug Delivery. Make better, safer biomaterials. Nicholas A. Peppas is the Cockrell Family Distinguished Chair in Biomedical, Chemical Engineering, Pediatrics, Surgery and Pharmacy at UT Austin. Their names and graduation years are listed below with links to their Google Scholar profiles. William B. Liechty is a NSF Graduate Research Fellow in the Department of Chemical Engineering at the University of Texas at Austin, conducting research under the direction of Prof. Nicholas Peppas. Dr. Nicholas Peppas acknowledges support from the Cockrell Family Regents Chair Foundation, the Office of the Dean of the Cockrell School of Engineering at the University of Texas at Austin (UT), and the Institute for Biomaterials, Drug Delivery, and Regenerative Medicine. Chemical and biomedical engineer; Educator. Professor Peppas’s research articles reach more than 69 thousand citations, more than an half (36779) starting from 2009 onward (Google Scholar); the most cited paper is dated 1983 1 and it represent a milestone in the explanation of release mechanisms from a … While there is insufficient space to list dedicated to Professor Nicholas Peppas. SD Horava, KJ Moy, NA Peppas. Biomaterials, Drug Delivery and Bionanotechnology—The Research that Paved the Way: Professor Nicholas Peppas’ Research Over the Years. Their combined citations are counted only for the first article. Nature Reviews. Molecular aspects of spore structure, assembly, and function are well defined. Ahsan Kareem is the Robert M. Moran Professor of Engineering in the Department of Civil & Environmental Engineering and Earth Sciences (CEEES) at the University of Notre Dame.He is Director of the Nathaz Modeling Laboratory and served as the past Chair at the Department of CEEES at the University of Notre Dame. On November 7, Dr. Peppas visited the Chemical Engineering Department of Vanderbilt University in Nashville TN, and presented the Tis Lahiri Lecture on Responsive and Intelligent Biopolymers for Recognitive Systems, Biosensing and Protein Delivery University of Texas at Austin. NA Peppas, A Khademhosseini. Mikos joined the faculty at Rice in 1992 and is now John W. Cox Professor of Bioengineering and Chemical Engineering. Member Since. The following articles are merged in Scholar. Μια απ’ αυτές, το Google Scholar, ... Nicholas Peppas (διπλ. ‪Chemical Engineering, Biomedical Engineering, Medicine, Pharmaceutics, UT Texas Austin‬ - ‪‪Cited by 157,642‬‬ - ‪biomaterials‬ - ‪drug delivery‬ - ‪chemical engineering‬ - ‪hydrogels‬ - ‪polymers‬ Antonios G. Mikos. Search across a wide variety of disciplines and sources: articles, theses, books, abstracts and court opinions. Nicholas has 20 jobs listed on their profile. Article Download PDF View Record in Scopus Google Scholar. We review newest developments in the design and fabrication of drug delivery devices based on micropatterned structures. Ind Eng Chem Res. The article also covers the inclusion of Polish library data in Google Scholar. This "Cited by" count includes citations to the following articles in Scholar. NICHOLAS PEPPAS The University of Texas GINTARAS REKLAITIS Purdue University ERIK YDSTIE Carnegie Mellon University ... and a scholar. Merged citations. ‪Assistant Professor, Department of Informatics and Telecommunications, University of Peloponnese‬ - ‪‪2.453 citazioni‬‬ - ‪Digital Communications‬ - ‪MIMO systems‬ - ‪Wireless‬ - ‪Cooperative Communications‬ - … 16, 847-855 (2020). B. Electronic devices have now reached a stage of dimensions comparable to those of biological macromolecules. Nature 540(7633), 335 (2016) link. In August 2008, a all … The ones marked * may be different from the article in the profile. The number of biomedical applications of hydrogels is increasing rapidly on account of their unique physical, structural, and mechanical properties. Peppas has 43 U.S. patents pending or issued, has founded three successful companies to further develop biomaterial and drug delivery therapies, and has published over 1,250 papers. Add co-authors Co-authors. ‪Senior Research Scientist, Adobe Research‬ - ‪‪Cited by 663‬‬ - ‪Audio Signal Processing‬ - ‪Machine Listening‬ - ‪Music Technology‬ - ‪Machine Learning‬ (2020) Polymer Composition Primarily Determines the Protein Recognition Characteristics of Molecularly Imprinted Hydrogels. 8: 7685-7695: Mitchell MJ, Billingsley MM, Haley RM, et al. 21. Add co-authors Co-authors. Drug Discovery 22. 23. The college also is home to such pioneers as Amelia Earhart and seven National Medal of Technology and Innovation … Add co-authors Co-authors. from the NTU … Mathematical and Physical Sciences. [Europe PMC free article] [Google Scholar] Area. 2010; 49:11991–11995. By John R. Clegg, Afshan S. Irani, Eric W. Ander, Catherine M. Ludolph, Abhijeet K. Venkataraman, Justin X. Zhong, Nicholas A. Peppas Science Advances 27 Sep 2019 : eaax7946 Modular hydrogel nanoparticles could be an enabling drug delivery technology for precision medicine applications. Their combined citations are counted only for the first article. Peppas has 43 U.S. patents pending or issued, has founded three successful companies to further develop biomaterial and drug delivery therapies, and has published over 1,250 papers. On the launch of this inaugural issue of AIChE’s and SBE’s Bioengineering & Translational Medicine, I must express my deep gratitude to the members of our Editorial Advisory Board. Nicholas A. Peppas is the Cockrell Family Distinguished Chair in Biomedical, Chemical Engineering, Pediatrics, Surgery and Pharmacy at UT Austin. The author thanks Nicholas Peppas and Juergen Siepmann for the invitation to participate in this issue which brought the opportunity to reflect on my own intersection with this field during the past and the immense impact of Takeru Higuchi on both. Nicholas Peppas holds a Cockrell Family Regents Chaired Professorship in Engineering, Medicine and Pharmacy at the University of Texas at Austin, with appointments in the departments of Chemical Engineering and Biomedical Engineering, in Surgery in the Dell Medical School, and in the College of Pharmacy. Specialty. Edited by Justin Hanes, Ali Khademhosseini, Surya Mallapragada, Antonios Mikos, Samir Mitragotri, Balaji Narasimhan. Nicholas A. Peppas, chair of the Department of Biomedical Engineering, and professor of chemical engineering, biomedical engineering and pharmacy at UT Austin, has been awarded an honorary doctorate degree from the University of Patras in Patras, Greece.. Peppas, Horava Develop First-Ever Capsule to Treat Hemophilia ... the National Science Foundation Graduate Research Fellowship Program, the P.E.O. On October 30-November 3, Dr. Peppas was invited by the Chinese Academy of Medical Sciences in Beijing to participate as an invited speaker in the 2016 World Life Science Conference. He spoke on the Impact of Novel Intelligent and Recognitive Biomaterials in Medical Sciences. . ‪Assistant Professor, Department of Informatics and Telecommunications, University of Peloponnese‬ - ‪‪2.453 citazioni‬‬ - ‪Digital Communications‬ - ‪MIMO systems‬ - ‪Wireless‬ - ‪Cooperative Communications‬ - … (2020) Polymer Composition Primarily Determines the Protein Recognition Characteristics of Molecularly Imprinted Hydrogels. Nature Reviews. (2020) Engineering precision nanoparticles for drug delivery. An innovative platform was developed for ultrasensitive microsensors based on microcantilevers patterned with crosslinked copolymeric hydrogels. THE EARLY YEARS Jennifer is a product of the rich Mid- Venkataraman AK, Clegg JR, Peppas NA. 1. With over 69,000 citations, he is the most highly cited bioengineer in Google Scholar and one of the most highly cited experts in the world. Control of cationic nanogel PEGylation in heterogeneous ARGET ATRP emulsion polymerization with PEG macromonomers. Peppas has 43 U.S. patents pending or issued, has founded three successful companies to further develop biomaterial and drug delivery therapies, and has published over 1,250 papers. Actions for selected articles. He was awarded the doctorate from the university’s Chemical Engineering Department, the top chemical engineering department in … Electronic devices have now reached a stage of dimensions comparable to those of biological macromolecules. The Laboratory of Biomaterials, Drug Delivery, and Bionanotechnology has a long and proud history of graduate students, postdocs, and visiting scientists. With over 69,000 citations, he is the most highly cited bioengineer in Google Scholar and one of the most highly cited experts in the world. March 18, 2014. This raises exciting possibilities for combining microelectronics and biotechnology to develop new technologies with unprecedented power and versatility. Their combined citations are counted only for the first article. With over 69,000 citations, he is the most highly cited bioengineer in Google Scholar and one of the most highly cited experts in the world. He received a B.S.E. Download PDFs Export citations. The 2014 Giulio Natta Medal in Chemical Engineering has been assigned by the Politecnico of Milan to Nicholas A. Peppas. The scientist, graduated in 1971 in biomedical engineering at the Athens School of Engineering (Greece), then moved to the US to reach doctoral degrees at MIT. Antonios Mikos earned his PhD in chemical engineering under Nicholas Peppas at Purdue, then completed a postdoctoral fellowship with Robert Langer at MIT. ‪Senior Lecturer in Construction & Project Management,University of South Australia‬ - ‪‪Cited by 3,737‬‬ - ‪Reverse logistics‬ - ‪Risk management‬ - ‪Social housing‬ - ‪Supply Chain Management‬ - ‪TQM‬ Merged citations. By John R. Clegg, Afshan S. Irani, Eric W. Ander, Catherine M. Ludolph, Abhijeet K. Venkataraman, Justin X. Zhong, Nicholas A. Peppas Science Advances 27 Sep 2019 : eaax7946 Modular hydrogel nanoparticles could be an enabling drug delivery technology for precision medicine applications. Drug Discovery Biodegradable hydrophilic carriers for the oral delivery of hematological factor IX for hemophilia B treatment. View Nicholas Peppas’ profile on LinkedIn, the world’s largest professional community. The synthetic strategy developed by Peppas and coworkers 19-21 allowed the decrease of critical swelling pH to increase endosomolytic 22 and gene transfection 23 efficiency by the incorporation of tert-butyl methacrylate (TBMA) in a cationic nanogel formulation. I'll walk with God by Nicholas Brodszky.Performed by Cathedral Choral Scholar, Lewis Wright. Dr. Nicholas Peppas, ... Google Scholar Page. 次の論文は Scholar 内で結合されています。 ... Nicholas A. Peppas. Like wise soluble biopolymers such as chitosan could be used for the nasal delivery of various antigens as well as DNA. The process of optimization is one of the most important biological barriers to controlled drug delivery (Donald Owens and Nicholas Peppas, 2006). Along with all these achievements she enjoys a wonderful fam- ily life with her husband, Barry Curtis, and her children, Jennette and Derek. This "Cited by" count includes citations to the following articles in Scholar. In the upper left corner of the page, press the button made of three horizontal lines to open a new menu. Soft Matter, 16, 856-869 (2020). Journal of Materials Chemistry. Carr DA, Gomez-Burgaz M, Boudes M, Peppas C, NA Complexation Hydrogels for the Oral Delivery of Growth Hormone and Salmon Calcitonin. Known as the 'Cradle of Astronauts,' Purdue University's College of Engineering has produced 25 astronauts, including Neil Armstrong. Looking for an older publication? Merged citations. Venkataraman AK, Clegg JR, Peppas NA. Special Issue In Honor Of Bob Langer & Nicholas Peppas. Article Download PDF View Record in Scopus Google Scholar. Nasim Annabi whose recent collaboration with the lab was published in the 25th Anniversy edition of Advanced Materials, gave a great talk on elastin hydrogels at the meeting. Molecular recognition with soft biomaterials. With over 69,000 citations, he is the most highly cited bioengineer in Google Scholar and one of the most highly cited experts in the world. Here she is seen with Prof. Peppas' google scholar citations' page and snippet from the recent collaboration. The following articles are merged in Scholar. This theme section of Pharmaceutical Research is dedicated to Professor Nicholas Peppas. The following articles are merged in Scholar. International Journal of Pharmaceutics 540(1), 220-228 (2016) link. Scholar Award and the UT Austin Undergraduate Research Fellowship. Βιογραφικά στοιχεία Σπουδές. 26, No. 8: 7685-7695: Mitchell MJ, Billingsley MM, Haley RM, et al. B. The Schools of Nursing and Pharmacy operate on both the Oxford and Jackson campuses. However, certain bacteria produce spores with an outer spore layer, the exosporium, which is not present on B. subtilis spores. The ones marked * may be different from the article in the profile. DS Spencer, BC Luu, DW Beckman, NA Peppas. To pull up the Advanced Scholar Search menu, go to the regular Google Scholar search page. These special issues were edited by our enthusiastic patrons, including Profs. We review newest developments in the design and fabrication of drug delivery devices based on micropatterned structures. Their expertise and experience provide a strong foundation supporting the broad range of bioengineering topics that will be covered in the journal. Select all / Deselect all. Advances in carbohydrate technology may accelerate the development of more specific targeting moieties that will enhance the efficacy of current treatments. Biography: Nicholas A. Peppas is the Cockrell Family Regents Chaired Professor in the Departments of Chemical, Biomedical Engineering, Surgery in the Dell Medical School, and Pharmacy, and Director of the Institute of Biomaterials, Drug Delivery and … (2020) Engineering precision nanoparticles for drug delivery. Journal of Materials Chemistry. Soft Matter. JR Clegg, NA Peppas, V Palacio-Betancur, JC Armas-Pérez, S Villada-Gil, NL Abbott, JP Hernández-Ortiz, JJ de Pablo. Advanced Search should be the second to last option in the newly-opened menu. Google Scholar. Chemical Engineering, Biomedical Engineering, Medicine, Pharmaceutics, UT Texas Austin. Nicholas Peppas holds a Cockrell Family Regents Chaired Professorship in Engineering, Medicine and Pharmacy at the University of Texas at Austin, with appointments in the departments of Chemical Engineering and Biomedical Engineering, in Surgery in the Dell Medical School, and in the College of Pharmacy. Google Scholar provides a simple way to broadly search for scholarly literature. Nicholas Peppas, professor in the ... With over 69,000 citations, he is the most highly cited bioengineer in Google Scholar and one of the most highly cited experts in the world. Previous to Nicholas's current city of Greenwood, WI, Nicholas Peppas lived in Milwaukee WI. ‪Adjunct Professor, Biomedical Engineering, The University of Texas at Austin‬ - ‪‪Cited by 14,083‬‬ - ‪drug delivery‬ - ‪biomaterials‬ - ‪biomedical engineering‬ - ‪chemical engineering‬ - ‪polymers‬ The utility of hydrogels as drug delivery systems or tissue engineering scaffolds critically depends on the control of diffusion of solutes through the hydrogel matrix. Summary: Nicholas Peppas was born on 12/25/1948 and is 71 years old. With over 69,000 citations, he is the most highly cited bioengineer in Google Scholar and one of the most highly cited experts in the world. Findings – There is a wealth of Polish content now available via WorldCat – currently around 900,000 items are available. Pharmaceutical Research, Vol. Work in biomaterials, polymer physics, drug delivery and bionanotechnology blending modern molecular and cellular biology with engineering and materials. Last update 9 October 2019. A novel UV free-radical photolithography process was utilized to precisely align and pattern environmentally responsive hydrogels onto silicon microcantilevers, after microcantilevers were fabricated and released. ACS Annual Meeting, Dallas, TX. JR Clegg, NA Peppas. … Kaushal Rege, Kannan Rangaramajunam, Paolo Decuzzi, Zhen Gu, Kathryn Whitehead, Pankaj Karande, Josue Snitzman, and Millicent Sullivan. Biomaterials; Controlled drug delivery; Biomedical engineering; Bionanotechnology; Molecular recognition processes; Polymer physics; Diffusion in polymers, Molecular modeling of protein structures in contact with biomaterials and tissues. Engineering and Technology. The Schools of Dentistry, Health Related Professionals and Medicine, and the Health Sciences Graduate School, are based in Jackson only. In August 2008, a group of colleagues, former and current students and post-docs, and friends and family gathered in Austin, Texas for a symposium and dinner to celebrate the occasion of Professor Peppas’ 60th birthday. Ο Νικόλαος Α. Πέππας γεννήθηκε στην Αθήνα στις 25 Αυγούστου 1948. This "Cited by" count includes citations to the following articles in Scholar. This raises exciting possibilities for combining microelectronics and biotechnology to develop new technologies with unprecedented power and versatility. He currently serves as the President of the International Association for … Schoener CA, Hutson HN, Fletcher GKet al. We also published a special issue honoring two luminaries of the field: Robert Langer and Nicholas Peppas. In the past, Nicholas has also been known as Nicholas A Peppas and Nicolas Peppas. Nicholas Peppas holds a Cockrell Family Regents Chaired Professorship in Engineering, Medicine and Pharmacy at the University of Texas at Austin, with appointments in the departments of Chemical Engineering and Biomedical Engineering, in Surgery in the Dell Medical School, and in the College of Pharmacy. 3, March 2009 ( 2009) DOI: 10.1007/s11095-008-9821-y Editorial 1,2 Mark E. Byrne Received December 23, 2008; accepted December 24, 2008; published online January 23, 2009 This theme section of Pharmaceutical Research is industry and academia. Nicholas A. Peppas. Using hyaluronic acid as a carrier for hydrophobic drugs increases their solubility and may increase the circulation time of many drugs, similarly to polyethylene glycol [43].

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