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Two-dimensional electronic spectroscopy
Two-dimensional electronic spectroscopy (2DES) is a popular technique that can track
ultrafast coherent and incoherent processes in real time. Since its development in the late …
ultrafast coherent and incoherent processes in real time. Since its development in the late …
Coherent two-dimensional and broadband electronic spectroscopies
Over the past few decades, coherent broadband spectroscopy has been widely used to
improve our understanding of ultrafast processes (eg, photoinduced electron transfer, proton …
improve our understanding of ultrafast processes (eg, photoinduced electron transfer, proton …
Encapsulating semiconductor quantum dots in supramolecular cages enables ultrafast guest–host electron and vibrational energy transfer
In the field of supramolecular chemistry, host–guest systems have been extensively
explored to encapsulate a wide range of substrates, owing to emerging functionalities in …
explored to encapsulate a wide range of substrates, owing to emerging functionalities in …
Energy transfer-based X-ray imaging scintillators
X-ray imaging scintillators are essential for numerous technologies that impact our daily
lives, including medical radiography, computed tomography, and security inspection …
lives, including medical radiography, computed tomography, and security inspection …
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 …
Fluorescence quenching effects of tetrazines and their Diels–Alder products: Mechanistic insight toward fluorogenic efficiency
Abstract Inverse electron demand Diels–Alder reactions between s‐tetrazines and strained
dienophiles have numerous applications in fluorescent labeling of biomolecules. Herein, we …
dienophiles have numerous applications in fluorescent labeling of biomolecules. Herein, we …
Phycobilisome's exciton transfer efficiency relies on an energetic funnel driven by chromophore–linker protein interactions
The phycobilisome is the primary light-harvesting antenna in cyanobacterial and red algal
oxygenic photosynthesis. It maintains near-unity efficiency of energy transfer to reaction …
oxygenic photosynthesis. It maintains near-unity efficiency of energy transfer to reaction …
Tuning between quenching and energy transfer in DNA-templated heterodimer aggregates
Molecular excitons, which propagate spatially via electronic energy transfer, are central to
numerous applications including light harvesting, organic optoelectronics, and nanoscale …
numerous applications including light harvesting, organic optoelectronics, and nanoscale …
Characterizing mode anharmonicity and Huang–Rhys factors using models of femtosecond coherence spectra
MS Barclay, JS Huff, RD Pensack… - The journal of …, 2022 - ACS Publications
Femtosecond laser pulses readily produce coherent quantum beats in transient–absorption
spectra. These oscillatory signals often arise from molecular vibrations and therefore may …
spectra. These oscillatory signals often arise from molecular vibrations and therefore may …
Tunable electronic structure via DNA-templated heteroaggregates of two distinct cyanine dyes
JS Huff, SA Díaz, MS Barclay… - The Journal of …, 2022 - ACS Publications
Molecular excitons are useful for applications in light harvesting, organic optoelectronics,
and nanoscale computing. Electronic energy transfer (EET) is a process central to the …
and nanoscale computing. Electronic energy transfer (EET) is a process central to the …