Brian Rolczynski Postdoctoral Scholar

Brian Rolczynski

Brian Rolczynski
Postdoctoral Scholar at The University of Chicago

Ph.D., Chemistry, Northwestern, 2012
B.S. Chemistry, Washington, 2007
B.A. English, Washington, 2007

GCIS E005
929 East 57th Street
Chicago, IL 60637 USA

rolczynski@engelgroup.uchicago.edu
(773)-702-6066

B.S. Rolczynski, H. Zheng, V.P. Singh, P. Navotnaya, A.R. Ginzburg, J.R. Caram, K. Ashraf, A.T. Gardiner, S.-H. Yeh, S. Kais, R.J. Cogdell, and G.S. Engel, "Correlated Protein Environments Drive Quantum Coherence Lifetimes in Photosynthetic Pigment-Protein Complexes Chem 4, 138–149 2018.

***Highlighted with a preview written by Dr. Margherita Maiuri and Prof. Greg Scholes.***

Brian RolczynskiHaibin ZhengVed SinghPolina NavotnayaRuvim GinzburgJustin CaramShu-Hao Yeh

Paper Published   1/11/2018

Congratulations to Brian Rolczynski, Haibin Zheng, Ved Singh, Polina Navotnaya, Ruvim Ginzburg, Justin Caram, and Shu-Hao Yeh as well as our collaborators in the Kais and Cogdell Groups on having their paper published to Chem. Thanks to Margherita Maiuri and Greg Scholes for writing a nice Preview piece highlighting this work.

Marco AllodiJohn OttoSara SohailRyan WoodBrian RolczynskiSara MasseyPo-Chieh Ting

Paper Published   12/13/2017

Congratulations to Marco Allodi, John Otto, Sara Sohail, Ryan Wood, Brian Rolczynski, Sara Massey, and Po-Chieh Ting as well as our collaborators in the Blankenship Group on having their paper entitled, "Redox Conditions Affect Ultrafast Exciton Transport in Photosynthetic Pigment-Protein Complexes", published in the Journal of Physical Chemistry Letters.

Brian RolczynskiHaibin ZhengSara Massey

Congratulations   5/9/2017

Congratulations to Brian Rolczynski, Haibin Zheng, and Sara Massey on the upcoming births of our next generation of chemists.

Brian RolczynskiPolina NavotnayaHallie Sussman

Paper Published   7/20/2016

Congratulations to Brian Rolczynski, Polina Navotnaya, and Hallie Sussman on their commentary piece entitled, "Cysteine-mediated mechanism disrupts energy transfer to prevent photooxidation", which published today in PNAS.