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Description
Project Summary
Renewal of previously funded REU # EEC-1757354
Title: REU Site: A Multidisciplinary Research Experience in Engineered Bioactive
Interfaces and Devices
Prin. Investigator: J. Zach Hilt, Gill Eminent Professor of Chemical Engineering
Organization: University of Kentucky (UK)
Location of Research: University of Kentucky (UK)
Main Fields: Biomedical Engr, Chemical Engr, Electrical Engr., Materials Engr, Mechanical
Engr, Chemistry, Pharmaceutical Sciences.
Number of Students: 12/year
Duration: 10 weeks Summer REU Site
No international, ethics or RET components
Contact Person: Ms. Marlene Spurlock, 859-257-8028, [email protected]
Website: http://nsfreu.engr.uky.edu
The overall objective of this project is to provide a novel multidisciplinary research and education
experience for rising sophomore, junior and senior undergraduates in the area of Engineered Bioactive
Interfaces and Devices. Funding over the past 13 years from NSF and the University of Kentucky has
provided us with the opportunity to provide 177 students with a multidisciplinary undergraduate research
experience in this area and the purpose of the current proposal is to request renewal of this highly
successful program. The University of Kentucky also has very successful graduate programs, hence, the
REU students not only have the opportunity to interact with REU faculty but also interact with graduate
trainees through research, special seminars, and other technical and social activities. Specific objectives
of the program include 1) providing the students with true interdisciplinary mentoring and research
training through their participation in a research project related to Engineered Bioactive Interfaces and
Devices 2) stimulating the students’ interests in Ph.D. careers in science and engineering through
seminars, field trips, and interactions with both graduate students and faculty, and 3) developing the
students’ independence and confidence through participation in research, journal clubs, in house
presentations and scientific meetings.
Intellectual Merit: Engineered Bioactive Interfaces and Devices focuses on the novel design of
architectures that interact with biological systems and promote a desired response. The need for this
cross-disciplinary interaction between investigators working on biological systems and those creating
novel engineered synthetic architectures has long been recognized and emphasized as an important area
of research. These advanced architectures have numerous applications ranging from tissue engineering,
to sensing systems, to drug delivery and successful development of these systems will depend on
expertise not only in developing novel synthetic architectures through nanotechnology, self-assembly and
hybrid systems but also on the interactions of these interfaces with biological systems such as cells and
proteins. An REU program in this area will introduce students early on to this exciting multidisciplinary
area and will encourage them to pursue this or similar areas for graduate studies. As part of the REU
program, the undergraduate students will have the opportunity to learn about three cross-disciplinary
research themes that form the foundation of the research in this area. They include 1) “Novel Bioactive
Architectures”, 2) “Cell/Protein Interactions at Interfaces”, and 3) “Integration into Devices”.
Broader Impact: Students will be recruited from various undergraduate disciplines including engineering,
biology, chemistry, physics and mathematics. Surrounding the University of Kentucky are numerous
regional colleges and universities that have no graduate programs in these areas. Recruitment at these
institutions will encourage students that may not otherwise pursue an advanced degree. In addition, we
will recruit at a number of national institutions that do not have graduate programs. Special efforts will be
made to attract women and minorities to this program by recruiting at minority institutions and publicizing
the program at national meetings of minority and women organizations such as the Society of Women
Engineers and the National Society of Black Engineers. Students accepted into the program will work
closely with faculty and graduate students who are currently engaged in collaborative, cross-disciplinary
research. The faculty participants have existing research collaborations that include joint student
supervision, grant funding and publications. The proposed REU program builds on these successful
collaborations and integrates them with other educational components, such as seminars, workshops,
and other technical and social activities. The students will be exposed to the excitement of
interdisciplinary research and by the end of the program will have an excellent knowledge of what is
involved in graduate research.
Status | Active |
---|---|
Effective start/end date | 10/15/22 → 9/30/25 |
Funding
- National Science Foundation: $404,997.00
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Projects
- 1 Active
-
REU Site: Participant Support Costs: A Multidisciplinary Research Experience in Engineered Bioactive Interfaces and Devices
10/15/22 → 9/30/25
Project: Research project