Where Quantum Physics Meets Photosynthesis Recent experimental results suggest that quantum - mechanical coherence plays a role in efficient energy transfer
in photoactive complexes.
Both rigid and flexible based OSCs and PSCs shows improvement in power conversion efficiency (PCE) owing to the absorption enhancement
in photoactive layer cause by light trapping effect of MCA.
Not exact matches
The
photoactive layers and electrodes are printed
in several steps between the two rolls.
In addition to inorganic fillers they can also contain
photoactive organic resins which react to light of a particular wavelength and readily solidify.
The Vienna University of Technology
in collaboration with the company Ivoclar Vivadent have now developed a new generation of
photoactive materials based on the element Germanium.
The effectiveness of biological systems and nanomachines
in capturing light and transporting energy is owing to the highly ordered nanoscale architecture of
photoactive molecules.
Cryptochromes are
photoactive pigments
in the eye that have been proposed to function as circadian photopigments.
Intra - and intermolecular signal transduction mechanisms
in membrane - embedded (photo --RRB- receptor / transducer complexes are studied using the photoreceptor / transducer complex NpSRII / NpHtrII, which is responsible for the
photoactive behavior of the halophilic archaeon Natronomonas pharaonis.
Moffat and colleagues were the first to conduct time - resolved crystallography and developed
photoactive yellow protein as a paradigm for light - dependent signal transduction
in biology.
Light harvesting management by using microstructural is a promising strategy for enhancing
photoactive layer absorption
in organic (OSCs) and perovskite solar cells (PSCs).
Resume: Light harvesting management by using microstructural is a promising strategy for enhancing
photoactive layer absorption
in organic (OSCs) and perovskite solar cells (PSCs).
The researchers focused on
photoactive yellow protein, a light - absorbing component found
in certain bacteria.
The team discovered that a form of perovskite, one of the newest materials
in solar research due to its high power conversion efficiency, works surprisingly well as a reversible
photoactive semiconductor material that can be switched between a transparent state and a non-transparent state, without degrading its electronic properties.