Professor Ozin explores the feasability of a solar refinery for making fuels and chemicals from CO2, H2O and sunlight.
Real or Artifact: CO2 Photo-Catalysis versus Carbon Contamination
Geoff Ozin asks if carbon dioxide capture and utilization, a potential solution to the CO2 problem, is feasible with today’s photo-conversion technology.
Completely new atomic crystal dynamic of titanium dioxide discovered
Theoretically-predicted interactions between single oxygen molecules and crystalline titanium dioxide experimentally confirmed.
High-performance capacitors could come from manganese dioxide nanorods
Fabricated nanorods are not only straight and tall (at least by nano-standards), but also have an optimal crystal structure.
A new porous material for carbon capture
Chemists at USF and KAUST have discovered a more efficient, less expensive and reusable material for carbon dioxide (CO2) capture and separation.
Industrial carbon management research gets $3.75 million boost
Carbon Management Canada, a national research network specializing in the development of carbon management technology, announces eight new projects.
Storing Gas in a Carbon Fibre Vessel
Linde developed a new range of carbon fibre wrapped gas cylinders. Lighter than steel cylinders and equipped with in-built digital intelligence and regulators.
Solar kerosene: One giant leap for humankind
The production of kerosene directly from carbon dioxide and water promises to be a game-changer in the energy field.
How do we take the methane out of natural gas?
An MOF filters methane, nitrogen, and carbon dioxide from natural gas with record-breaking selectivity under practical conditions.
Will industrial-scale photocatalysis see the light of day?
Exploring how scientists can develop efficient, solar-powered reactions to convert carbon dioxide to useful chemical feedstocks.