Metin Karayilan

Assistant Professor

Contact

metin.karayilan@case.edu
216.368.2602
Millis 433A
https://www.karayilanresearch.com/

Other Information

Degree: PhD, University of Arizona

Interests

Organic, polymers, biomaterials, synthesis, materials characterization, 3-D printing, photochemistry, data science, green chemistry, chemical education

 

 

Education

  • Postdoc at Duke University, Durham, NC, 2022
  • PhD in Chemistry at the University of Arizona, Tucson, AZ, 2019
  • MS in Chemical Engineering at Koç University, Istanbul, Turkey, 2014
  • BS in Chemistry at METU, Ankara, Turkey, 2011

 

 

Research Statement

Karayilan Research Lab is a multidisciplinary research team that develops soft matter solutions for unmet biomedical and technological needs. The team executes a “retrosynthetic” or “reverse-engineering” approach to structure-property-application relationships of polymers for new materials development. We identify current challenges where soft materials might be advantageous with their unique properties in proposed solutions. We then explore functional synthetic and manufacturing constructs with the appropriate properties that address these challenges. We will also maximize the performance of the materials and increase our current understanding of the materials’ design, synthesis, and properties at a molecular level by leveraging the emerging field of data-driven computational models.

 

 

Selected Publications

  • Karayilan, M.*; McDonald, S. M.; Bahnick, A. J.; Godwin, K.; Chan, Y. M.; Becker, M. L. “Reassessing Undergraduate Polymer Laboratory Experiments for Virtual Learning Environments.” J. Chem. Educ., 2022, 99, 5,1877-1889.
  • Karayilan, M.*; Vakil, J.; Fowler, D.; Becker, M. L.; Cox, C. “Zooming in on Polymer Chemistry and Designing Synthesis of High-Sulfur Content Polymers for Virtual Undergraduate Laboratory Experiment” J. Chem. Educ., 2021, 98, 6, 2062-2073.
  • Karayilan, M.; Clamen, L.; Becker, M. L. “Polymeric Materials for Eye Surface and Intraocular Applications.” Biomacromolecules, 2021, 22, 2, 223-261.
  • Clary, K. E.; Karayilan, M.; McCleary-Petersen, K. C.; Petersen, H.; Glass, R. S.; Pyun, J.; Lichtenberger, D. L. “Enhancing the Hydrogen Evolution Reaction in Neutral Water with Protic Buffer Electrolytes.” PNAS, 2020, 117, 52, 32947-32953.
  • Karayilan, M.; Brezinski, W. P.; Clary, K. E.; Lichtenberger, D. L.; Glass, R. S.; Pyun, J. “Catalytic Metallopolymers from [2Fe-2S] Clusters: Artificial Metalloenzymes for Hydrogen Production.” Angew. Chem. Int. Ed., 2019, 58, 7537-7550.
  • Brezinski, W. P.; Karayilan, M.; Clary, K. E.; Pavlopoulos, N. G.; Li, S.; Fu, L. Y.; Matyjaszewski, K.; Evans, D. H.; Glass, R. S.; Lichtenberger, D. L.; Pyun, J. “[FeFe]‐Hydrogenase Mimetic Metallopolymers with Enhanced Catalytic Activity for Hydrogen Production in Water.” Angew. Chem. Int. Ed. 2018, 57, 11898.

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