They focus on the ability to provide molecular - level insights into surface photochemistry on the model photocatalyst surface of rutile TiO2 (110) to illustrate the unique knowledge that scanning probe techniques have already provided the field
of photocatalysis.
Professor Michael Bowker continued: «Up until recently, the production of hydrogen from cellulose by means
of photocatalysis has not been extensively studied.
«Enhancement in rate
of photocatalysis upon catalyst recycling.»
Not exact matches
Biohybrid systems combine something like electrocatalysis or
photocatalysis with enzymes or microbes that can upgrade the products
of CO2 conversion into finer chemicals.
The
photocatalysis allowed the chemists to start with alkyl redox - active esters instead
of the usual alkyl halides, which are limited in terms
of availability, stability, and are sometimes toxic.
Now, the lab
of Xile Hu at EPFL has developed a new method that can efficiently produce alkyl amines by using
photocatalysis alongside copper catalysis.
Titanium dioxide (TiO2) is one
of the most promising materials for photovoltaics and
photocatalysis nowadays.
Frank Gu, a professor in the Faculty
of Engineering at the University
of Waterloo and Canada Research Chair in Nanotechnology Engineering, is the senior researcher on the team that was the first to find that
photocatalysis — a chemical reaction that involves the absorption
of light by nanoparticles — can completely eliminate naphthenic acids in oil sands wastewater, and within hours.
Such materials are
of significant interest in a variety
of scientific and technological arenas, including oxide electronics, spintronics, and
photocatalysis.
Functionalization
of TiO2 nanopowders for targeted applications in pigments, gas sensors,
photocatalysis, etc..
An imaging technique that uses cleverly chosen fluorescent reporter molecules to examine the fate
of photogenerated electrons and holes in a semiconductor at the nanometer scale is «a breakthrough,» says Bruce A. Parkinson, a
photocatalysis specialist at the University
of Wyoming.
Prof. Su's current research fields include the design, the synthesis, the property study and the molecular engineering
of nanostructures and highly organized and hierarchically self - assembled porous materials, bio-integrated living and bio-inspired materials including leaf - like materials by the immobilization
of living organisms and biomaterials for catalysis,
photocatalysis, CO2 reduction and water splitting, artificial photosynthesis, nanotechnology, biotechnology, information technology, energy storage and conversion, cell therapy and biomedical applications.
In particular she worked in the fields
of: Semiconductor
photocatalysis, surface chemistry and plasma assisted methods for the synthesis
of thin films and coatings.
There is no mention
of the photocatalytic panels on the 570 Broome website; the only reference I can find is an interview with the architect, Tahir Demircioglu, whotells New York Spaces that the building «features a state -
of - the - art façade that is not only self cleaning but actually purifies the air through
photocatalysis and superhydrophilicity.»
I am a researcher
of organic chemistry with scientific experiences in heterogeneous catalysis and
photocatalysis.