photoactive

Before we get into the details of their proposal, we'll quickly go over how photoactive molecules store solar energy.

A photoactive layer is used in solar cells for absorbing light.

This can also relate to a physical reaction, but this does not occur within photoactive layers.

The photographic paper base must be free of photoactive impurities such as iron and lignins.

It can be found in all solar cells, but with different panels the photoactive layer is made of different materials.

The photoactive catalysts impregnated inside speed up the degradation of the organics.

The photoactive layer can be created by mixing nanoparticles into a polymer matrix.

The huge animals excreted a constant wake of the photoactive algae they used for ballast.

A useful photoactive molecule will be able to go through numerous cycles of charging and discharging.

Polyfluorenes are an important class of polymers which have the potential to act as both electroactive and photoactive materials.

To increase the photovoltaic efficiency, electron-accepting impurities must be added to the photoactive region.

Even the one remaining strip was mottled and unsteady, as if the photoactive bacteria in it were dying too.

The ammonium dichromate acts as the photoactive site.

The two materials are assembled together in a heterojunction-type photoactive layer, which can have a greater power conversion efficiency than a single material.

Ficus carica; isolation and quantification of the photoactive components.

Further research is being done in search of even more improvement by examining different possible combinations of substrates and photoactive molecules.

The localized states between E and E are known as 'photoactive centers.'

Photoresists have three major components, a solvent, resin, and sensitizer (or photoactive compound).

Photoactive movement of the stomata of sugarcane.

Differently-doped materials may have several different types of photoactive centers, each of which requires a different mathematical treatment.

In hybrid solar cells, an organic material is mixed with a high electron transport material to form the photoactive layer.

These photoactive molecules could be the ideal solar fuel, as the right material should be transportable, affordable, and rechargeable.

Their proposed design combines an organic photoactive molecule, azobenzene, with the ever-popular carbon nanotube.

Their proposal combines carbon nanotubes with a well known photoactive chemical, azobenzene, to store solar energy at high densities.

The photoactive region of the CCD is, generally, an epitaxial layer of silicon.