GoMRI

Investigating the effect of oil spills
on the environment and public health.

revert menu

Karolina Kosakowska

Tulane University

Department of Chemistry

School of Science and Engineering
201 Lindy Boggs Center
New Orleans , LA 70118

kkosakow@gmail.com

Project List:

Development of Cost-Efficient and Concentration-Independent Dispersants for Improved Oil Spill Remediation

Year 3-5 Investigator Grants (RFP-II)Role: Graduate Student - PhD Level

Publications & Presentations:

Journal Article - 1
2015
Ejaz, M., Alb, A. M., Kosakowska, K. A., & Grayson, S. M. (2015). Modular amphiphilic copolymer-grafted nanoparticles: “nanoparticle micelle” behavior enhances utility as dispersants. Polym. Chem., 6(44), 7749–7757.
Conference Presentations - 4
2015
Ejaz, M., Alb, S., Kosakowska, K., Bentz, K. S., D. A, & Grayson, S. M.;. (2015). Overcoming the critical micelle concentration: Exploring nanoparticles with amphiphilic grafts as concentration-independent “unimolecular micelle” nanodispersants for oil spill remediation. In 250thÂ American Chemical Society National Meeting & Exposition. Boston, MA : 08/16/15-08/20/15.
Ejaz, M., Alb, S., Kosakowska, K., Bentz, K. S., D. A, & Grayson, S. M.;. (2015). Design, synthesis and evaluation of amphiphilic “nanodispersants” for oil spill remediation based on nanoparticles with amphiphilic polymer grafts. In Pacific Polymer Conference. Kauai, HI : 09/27/15-10/02/15.
Ejaz, M., Alb, S., Kosakowska, K., & Grayson, S. M. (2015). Tuning Amphiphilic Nanomaterials for Environmental and Biomedical Applications. In Partnership for Research and Education in Materials (PREM) Conference. Jackson, MS : 07/24/15.
Ejaz, M., Alb, S., Kosakowska, K., & Grayson, S. M. (2015). Overcoming the critical micelle concentration: Exploring nanoparticles with amphiphilic grafts as concentration-independent 'unimolecular micelle' nanodispersants for oil spill remediation. In 250thÂ American Chemical Society National Meeting & Exposition (POLY). Boston, MA : 08/16/15-08/20/15.