Carbon capture and utilization (CCU) covers an array of technologies for valorizing carbon
dioxide (CO2). To date, most mature CCU technology conducted with capture agents …

The integration of carbon dioxide (CO 2) capture and conversion processes presents an
opportunity to reduce energy and capital costs required to create useful products from dilute …

Currently, global annual CO 2 emissions from fossil fuel consumption are extremely high,
surpassing tens of billions of tons, yet our capacity to capture and utilize CO 2 remains …

Unprecedented increase in atmospheric CO2 levels calls for efficient, sustainable, and cost‐
effective technologies for CO2 removal, including both capture and conversion approaches …

One-carbon (C1) compounds are emerging as cost-effective and potentially carbon-negative
feedstocks for biomanufacturing, which require efficient, versatile metabolic platforms for the …

This study comprehensively evaluated the performance of 3D printed electrodes with
different lattice structures (Cubic, Diamond, Schwartz, and SplitP) in microbial electrolysis …

Herein, a reverse bias heterojunction NiCoS/NiCo-OH with mesopores as the positive
electrode was constructed by interface engineering. During the process of charging, the …

Microbial electrochemical system (MES) offers sustainable solutions for environmental
applications such as wastewater treatment, energy generation, and chemical synthesis by …

CO2 conversion to methane in an electrified bioreactor presents a promising “power-to-gas”
technology. Achieving higher productivity at higher energy efficiency, while maintaining …

It is becoming more evident that climate change, primarily caused by anthropogenic carbon
emission, is affecting our lives. Over the past few years, more and more concrete scientific …