2D electronic spectroscopic techniques for quantum technology applications
E Collini - The Journal of Physical Chemistry C, 2021 - ACS Publications
2D electronic spectroscopy (2DES) techniques have gained particular interest given their
capability of following ultrafast coherent and noncoherent processes in real-time. Although …
capability of following ultrafast coherent and noncoherent processes in real-time. Although …
Vibronic and environmental effects in simulations of optical spectroscopy
Including both environmental and vibronic effects is important for accurate simulation of
optical spectra, but combining these effects remains computationally challenging. We outline …
optical spectra, but combining these effects remains computationally challenging. We outline …
Engineering couplings for exciton transport using synthetic DNA scaffolds
Control over excitons enables electronic energy to be harnessed and transported for light
harvesting and molecular electronics. Such control requires nanoscale precision over the …
harvesting and molecular electronics. Such control requires nanoscale precision over the …
Unifying nonlinear response and incoherent mixing in action-2D electronic spectroscopy
Action-detection has expanded the scope and applicability of 2D electronic spectroscopy,
while posing new challenges for the unambiguous interpretation of spectral features. In this …
while posing new challenges for the unambiguous interpretation of spectral features. In this …
Polariton-assisted manipulation of energy relaxation pathways: donor–acceptor role reversal in a tuneable microcavity
D Dovzhenko, M Lednev, K Mochalov, I Vaskan… - Chemical …, 2021 - pubs.rsc.org
Resonant interaction between excitonic transitions of molecules and localized
electromagnetic field allows the formation of hybrid light–matter polaritonic states. This …
electromagnetic field allows the formation of hybrid light–matter polaritonic states. This …
Coherence in carotenoid-to-chlorophyll energy transfer
The subtle details of the mechanism of energy flow from carotenoids to chlorophylls in
biological light-harvesting complexes are still not fully understood, especially in the ultrafast …
biological light-harvesting complexes are still not fully understood, especially in the ultrafast …
Engineering exciton dynamics with synthetic DNA scaffolds
Conspectus Excitons are the molecular-scale currency of electronic energy. Control over
excitons enables energy to be directed and harnessed for light harvesting, electronics, and …
excitons enables energy to be directed and harnessed for light harvesting, electronics, and …
Delocalized two-exciton states in DNA scaffolded cyanine dimers
The engineering and manipulation of delocalized molecular exciton states is a key
component for artificial biomimetic light harvesting complexes as well as alternative circuitry …
component for artificial biomimetic light harvesting complexes as well as alternative circuitry …
DNA scaffold supports long-lived vibronic coherence in an indodicarbocyanine (Cy5) dimer
Vibronic coupling between pigment molecules is believed to prolong coherences in
photosynthetic pigment–protein complexes. Reproducing long-lived coherences using …
photosynthetic pigment–protein complexes. Reproducing long-lived coherences using …
DNA origami chromophore scaffold exploiting homoFRET energy transport to create molecular photonic wires
DNA-scaffolded molecular photonic wires (MPWs) displaying prearranged donor–acceptor
chromophore pairs that engage in extended Förster resonance energy transfer (FRET) …
chromophore pairs that engage in extended Förster resonance energy transfer (FRET) …