The Engel Group at The University of Chicago

The Engel Group strives to exploit femtosecond dynamics to steer and to control excited state reactivity. We use a combination of ultrafast spectroscopy, theory, synthesis, and biophysics to approach this problem.

 

Revealing Nature's Designs

Nature has had 2.4 billion years to evolve and engineer excited state dynamics. From photosynthesis to vision to photoenzymes, we examine natural mechanisms to steer excited states. Our goal is to isolate and identify new design principles to control quantum dynamics.

More on Photosynthesis

Steering Excited State Dynamics

Electronic excited states carry enough energy to make and break chemical bonds. Photochemistry operates outside the Born-Oppenheimer regime -- thereby escaping our standard chemical intuition. We seek new strategies to steer excited states and to control their reactivity.

More on Photochemistry
 

Seeing the Unseen

You can't engineer what you can't see. We build new spectroscopic tools to probe femtosecond dynamics of electronic excitations. In living cells, protein complexes, and small molecules, we capture how these systems evolve with unprecedented depth and specificity.

More on Spectroscopy

News from The Engel Group

Congratulations   9/15/2020

Richard Mazuski

Dr. Richard Mazuski is off to start his new position at McKinsey and Co. Congratulations, Richard! We wish you well.

Congratulations   7/10/2020

Ryan Wood

Dr. Ryan Wood is off to start his new position at Intel. Congratulations, Ryan! We wish you well.

Paper Accepted   7/9/2020

Sara SohailJohn OttoRyan WoodMarco AllodiJake Higgins

Sara Sohail, John Otto, Ryan Wood, Marco Allodi, and Jake Higgins have had their paper entitled "DNA scaffold supports long-lived vibronic coherence in an indodicarbocyanine (Cy5) dimer" has been accepted to Chemical Science. The paper was written in collaboration with Joe Melinger, Paul Cunninghand and Youngchan Kim at NRL.

Research Resumption   6/17/2020

Engelgroup

We are back in the lab doing our research safely and efficiently

More News

Specific Research Areas

Quantum Biology

Quantum Biology
Ultrafast Spectroscopy

Ultrafast Spectroscopy
Quantum Materials

Quantum Materials
Photocatalysis

Photocatalysis
Theory

Theory
Coherent Dynamics

Coherent Dynamics
Light Harvesting Materials

Light Harvesting Materials
Ultrafast Chiral Response

Ultrafast Chiral Response
Live Cell Studies

Live Cell Studies

Recent Publications

S.H. Sohail, J.P. Otto, P.D. Cunningham, Y.C. Kim, R.E. Wood, M.A. Allodi, J.S. Higgins, J.S. Melinger, and G.S. Engel, "DNA scaffold supports long-lived vibronic coherence in an indodicarbocyanine (Cy5) dimer", Chemical Science (accepted)

R.J. Mazuski*, S.A. Díaz*, R.E. Wood, L.T. Lloyd, W.P. Klein, D. Mathur, J.S. Melinger, G.S. Engel, and Igor L. Medintz, "Ultrafast Excitation Transfer in Cy5 DNA Photonic Wires Displays Dye Conjugation and Excitation Energy Dependency", JPCL Accepted

R.E Wood, L.T. Lloyd, F. Mujid, L. Wang, M.A. Allodi, H. Gao, R.J. Mazuski, P.-C. Ting, S. Xie, J. Park, and G.S. Engel, "Evidence for the Dominance of Carrier-Induced Band Gap Renormalization over Biexciton Formation in Cryogenic Ultrafast Experiments on MoS2 Monolayers", J. Phys. Chem. Lett. 11, 2658-2666 2020

R.E Wood, L.T. Lloyd, F. Mujid, L. Wang, M.A. Allodi, H. Gao, R.J. Mazuski, P.-C. Ting, S. Xie, J. Park, and G.S. Engel, "Biexcitons do not form in MoS2 monolayers from optical pumping at 6 K", Ultrafast Phenomena and Nanophotonics XXIV 11278, 1127805

S-H Yeh, R. Hoehn, M.A. Allodi, G.S. Engel, and S. Kais, "Elucidation of near-resonance vibronic coherence lifetimes by nonadiabatic electronic-vibrational state character mixing", PNAS 116 18263-18268 2019.

L. Wang*, M.A. Allodi* and G.S. Engel, "Quantum coherences reveal excited state dynamics in biophysical systems", Nat. Rev. Chem. 3 477–490 2019.

All Publications

Affiliations

University of Chicago
Chemistry Department
Biophysical Sciences
Institute for Molecular Engineering
James Franck Institute
Institute for Biophysical Dynamics
MRSEC
College
quantum
spectroscopy
materials

Funding

AFOSR
DARPA
Dreyfus
Searle
Keck
DTRA
Lockheed Martin
UChicago
NSSEFF
NSF
NIH
QNRF
DOE
Sloan