This is a preview. Log in through your library . Abstract Existing phenol production processes tend to be energy-consuming and produce unwanted by-products. We report an efficient process using a ...

Nagoya, Japan - Breaking carbon-hydrogen bonds is notoriously difficult in lab chemistry, yet nature does it effortlessly. Now, scientists have used E.coli bacteria to oxidize the C-H bonds in benzene ...

Explore benzene's transformative role in modern industry and its hidden health risks, revealing a complex legacy of ...

Extrapolation of adverse health outcomes from epidemiologic or toxicological studies in animals at high doses in which metabolites are the biologically active agents to low-level environmental ...

Plants can do it: they simply grab carbon dioxide out of the air and covert it into biomass. In this process, known as photosynthesis, the plants use light as their energy source. Chemists would also ...

The metabolism of benzene differs from that of other aromatic hydrocarbons; the excretion of phenol in the urine of workers exposed to ambient benzene bears a linear relationship to the degree of ...

Nitrous oxide is both a greenhouse gas and contributes to the destruction of stratospheric ozone. Industry produces around 1.3 megatons of nitrous oxide per year, which accounts for a fifth of the ...