An E. coli strain that can grow to a relatively high cell density solely on CO?and formic acid was developed by employing metabolic engineering Most biorefinery processes have relied on the use of ...

Hydrogen fuel cells have long been floated as a potential platform for zero-emission vehicles, but problems with efficiency and storage have put up some roadblocks. Rather than using hydrogen in its ...

I’m trying to develop High power direct formic acid fuel cell, DFAFC, which is a cmparable to that of polymer electrolyte fuel cell, PEFC. Formic acid is one of a superior energy carrier it can be ...

As the world seeks solutions to reduce carbon emissions and transition toward a sustainable and cost efficient chemical industry, efficient utilization of CO₂ has become a major challenge. In response ...

The Netherlands Enterprise Agency (RVO), TNO, GAFT, Waterfuture, University of Twente, and DENS The new eCO2FORM project with a total of five project partners is coordinated by TNO and it aims to ...

MADISON — A team of University of Wisconsin-Madison engineers has developed a highly efficient, environmentally friendly process that selectively converts gamma-valerolactone, a biomass derivative, ...

Hydrogen gas holds promise as a carbon-free fuel, but is difficult to store and transport because it is highly flammable, diffuse and has a low energy density. Jonathan Hull at Brookhaven National ...

A metabolic engineering research group has developed a strategy to grow an E. coli strain to higher cell density solely on CO2 and formic acid. Formic acid is a one carbon carboxylic acid, and can be ...