Stanford researchers in the Kanan Lab have developed a scalable method for achieving verifiable, safe, and permanent carbon removal at relatively low energy demand.
For the first time, researchers in Prof. Yan Xia's laboratory have synthesized a new ladder type microporous polymide (PIM) by linking an arene-norbornene building block to a Tröger's base which can be used for high-performance gas separation membranes.
Stanford researchers in the Benson Lab have developed CCSNet, an open source software platform for modeling CO2 storage reservoirs based on machine learning neural networks.
Measurement of dissolved CO2 has critical applications in healthcare monitoring and consumer goods quality control, yet is difficult to measure directly.
Stanford researchers have developed a novel electrode composed of copper-based catalyst and a carbon-based catalyst to directly convert CO2 into ethylene, a valuable carbon-based molecule.
Stanford inventors have developed a cell-free method for carbon-negative biosynthetic production of commodity biochemicals by using hydrogen gas as a source of reducing equivalents.
A multidisciplinary team of Stanford researchers have developed a new class of tunable, zinc-based sorbents that use catalytic carbonate chemistry to efficiently capture carbon in the presence of water vapor.