Abstract:A common perception exists that glycerol provides an inert-like environment modifying viscosity and index of refraction by its various concentrations in aqueous solution. Said perception is herein challenged by investigating the effects of the glycerol environment on the spectroscopic properties of fluorescein, as a representative fluorophore, using steady-state and time-resolved techniques and computational chemistry. Results strongly suggest that the fluorescence quantum yield, measured fluorescence lifetime… Show more
“…The mono-exponential decay and lifetime value agree with the expected Alexa 647 photophysical properties 56 . The Alexa 647 lifetime, which is sensitive to the glycerol environment 57 increases to 1.57 ns in the glycerol solution. Fig.…”
Single molecule fluorescence spectroscopy is at the heart of molecular biophysics research and the most sensitive biosensing assays. The growing demand for precision medicine and environmental monitoring requires the creation of miniaturized and portable sensing platforms. However, the need for highly sophisticated objective lenses has precluded the development of single molecule detection systems for truly portable devices. Here, we propose a dielectric metalens device of submicrometer thickness to excite and collect light from fluorescent molecules instead of an objective lens. The high numerical aperture, high focusing efficiency, and dual-wavelength operation of the metalens enable the implementation of fluorescence correlation spectroscopy with a single Alexa 647 molecule in the focal volume. Moreover, the metalens enables real-time monitoring of individual fluorescent nanoparticle transitions and identification of hydrodynamic diameters ranging from a few to hundreds of nanometers. This advancement in sensitivity extends the application of the metalens technology to ultracompact single-molecule sensors.
“…The mono-exponential decay and lifetime value agree with the expected Alexa 647 photophysical properties 56 . The Alexa 647 lifetime, which is sensitive to the glycerol environment 57 increases to 1.57 ns in the glycerol solution. Fig.…”
Single molecule fluorescence spectroscopy is at the heart of molecular biophysics research and the most sensitive biosensing assays. The growing demand for precision medicine and environmental monitoring requires the creation of miniaturized and portable sensing platforms. However, the need for highly sophisticated objective lenses has precluded the development of single molecule detection systems for truly portable devices. Here, we propose a dielectric metalens device of submicrometer thickness to excite and collect light from fluorescent molecules instead of an objective lens. The high numerical aperture, high focusing efficiency, and dual-wavelength operation of the metalens enable the implementation of fluorescence correlation spectroscopy with a single Alexa 647 molecule in the focal volume. Moreover, the metalens enables real-time monitoring of individual fluorescent nanoparticle transitions and identification of hydrodynamic diameters ranging from a few to hundreds of nanometers. This advancement in sensitivity extends the application of the metalens technology to ultracompact single-molecule sensors.
“…A direct means of solar to fuel production lies in close replication to the mechanism in plants -the artificial leaf. 61 The artificial leaf copies natural photosynthesis by possessing an oxygen evolving component as well as a proton reducing component to evolve hydrogen, a schematic of which is shown in Scheme 1.06. For the artificial leaf to efficiently evolve hydrogen careful consideration must be given to the water oxidation catalyst, which is a Co-based catalyst composed of Co and O, with Co shown to be in both a +2 and +4 oxidation state.…”
Section: Solar To Fuel Devicesmentioning
confidence: 99%
“…The lower catalytic H2 evolution performance by Eosin Y in the presence of glyceline may be explained via the fact that direct electron transfer by the Eosin Y to the enzyme is limited from a diffusional aspect, whereby the more viscous solution does not allow for favourable interaction of the dye with the enzyme. Also, which has been previously discussed is the quenching effect of glycerol on excited Eosin Y, which can lower the lifetime of the excited state 61. As glyceline concentration decreases, H2 production increases.However, again with increasing glyceline concentration, photocatalytic O2 tolerance increases highlighting the strength of the DESs effect on limiting O2 diffusion to compete with proton reduction.…”
New reaction systems that can efficiently convert solar energy into fuels is of major scientific importance to aid in alleviating the global use of fossil fuels. Hydrogen is viewed as the ideal solar fuel as it can be used in a clean carbon free energy cycle.Research into reaction systems which can evolve hydrogen with the help of 10 through a light absorbing photosystem to a higher energy state. The high-energy photoexcited electron can then be used to generate bio-reducing agents such as NADPH for further bioreactions. The separation of the photoexcited electron from the manganese calcium oxide cluster located in the light absorber PSII is so structured that the quantum efficiency of charge separation is near unity i.e., each photo-excited electron is used in a chemical process. The electron pathway and charge separation is highlighted in Scheme 1.01. 14 Scheme 1.01. Depiction of electron pathway and fate during natural photosynthesis. Here, OEC is the oxygen evolution complex, PSII is photosystem II, PSI is photosystem I, and NADP + is the nicotinamide adenine dinucleotide phosphate co-factor. Reprinted with permission from REF 14.
We report on the rotational diffusion dynamics of three chromophores (disodium fluorescein, oxazine 725, and perylene) in a series of choline chloride−ethylene glycol (ChCl:EG) deep eutectic solvent (DES) systems. We observe behavior independent of DES bulk viscosity for the cationic and neutral probes and behavior that is consistent with stick-limit interactions for the modified Debye−Stokes−Einstein model for the anionic probe. This finding indicates that the anionic species is integral to the interactions between DES constituent species that are responsible for local organization, consistent with previous MD simulations that showed higher interaction energies associated with both the hydrogen bond donor (EG) and hydrogen bond acceptor (Ch + ) interactions with Cl − in ChCl:EG mixtures. The reorientation data reported here also indicate a region around 15 mol % ChCl where the stoichiometric relationship between the species gives rise to changes in the details of intermolecular interactions.
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