Giant light-harvesting nanoantenna for single-molecule detection in ambient light
Here, we explore the enhancement of single-molecule emission by a polymeric
nanoantenna that can harvest energy from thousands of donor dyes to a single acceptor. In …
nanoantenna that can harvest energy from thousands of donor dyes to a single acceptor. In …
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 …
Review of in vivo optical molecular imaging and sensing from x-ray excitation
Significance: Deep-tissue penetration by x-rays to induce optical responses of specific
molecular reporters is a new way to sense and image features of tissue function in vivo …
molecular reporters is a new way to sense and image features of tissue function in vivo …
Unveiling the Photo‐and Thermal‐Stability of Cesium Lead Halide Perovskite Nanocrystals
Lead halide perovskites possess unique characteristics that are well‐suited for
optoelectronic and energy capture devices, however, concerns about their long‐term …
optoelectronic and energy capture devices, however, concerns about their long‐term …
Charge Carrier Lifetime Fluctuations and Performance Evaluation of Cu(In,Ga)Se2 Absorbers via Time‐Resolved‐Photoluminescence Microscopy
M Ochoa, SC Yang, S Nishiwaki… - Advanced Energy …, 2022 - Wiley Online Library
The open‐circuit voltage (VOC) is the main limitation to higher efficiencies of Cu (In, Ga) Se2
solar cells. One of the most critical parameters directly affecting VOC is the charge carrier …
solar cells. One of the most critical parameters directly affecting VOC is the charge carrier …
Data Analysis Methods in Time‐Resolved Fluorescence Spectroscopy: A Tutorial Review
Fluorescence spectroscopy and related techniques benefit from exceptional sensitivity and
have become engrained in a variety of fields from biosciences to materials sciences …
have become engrained in a variety of fields from biosciences to materials sciences …
Deep learning enhanced fast fluorescence lifetime imaging with a few photons
We present a deep learning (DL) framework, termed few-photon fluorescence lifetime
imaging (FPFLI), for fast analysis of fluorescence lifetime imaging (FLIM) data under highly …
imaging (FPFLI), for fast analysis of fluorescence lifetime imaging (FLIM) data under highly …
Machine learning for analysis of time-resolved luminescence data
Time-resolved photoluminescence is one of the most standard techniques to understand
and systematically optimize the performance of optical materials and optoelectronic devices …
and systematically optimize the performance of optical materials and optoelectronic devices …
Microscopic Perspective of Synergy between Localized Surface Plasmon Resonance and Disruption of Dye Aggregates in Metal Nanoparticle-Enhanced …
The interaction of rose bengal (RB) aggregates with silver nanoparticles (AgNPs) is
investigated to understand the factors that contribute toward metal nanopaticle enhanced …
investigated to understand the factors that contribute toward metal nanopaticle enhanced …
NAD (P) H binding configurations revealed by time-resolved fluorescence and two-photon absorption
NADH and NADPH play key roles in the regulation of metabolism. Their endogenous
fluorescence is sensitive to enzyme binding, allowing changes in cellular metabolic state to …
fluorescence is sensitive to enzyme binding, allowing changes in cellular metabolic state to …