Last Update: 04/05/2026 at 2:50 PM EST
34e3ea5f-2c42-4d0c-bed1-035ff54f46d6
Coverage from EurekAlert!, ScienceDaily, and others
Articles
7
Latest Article
03/28
Active Days
10
Executive Summary
- No key points available
Quick Facts
- What: Unknown based on available details here
- Where: Unknown based on available details here
- Why: Unknown based on available details here
- Who: Unknown based on available details here
- When: Unknown based on available details here
Coverage Timeline: 10 Days
Featured Article
Chiba University researchers published a viciazites CO2 capture material in Carbon with low-temperature CO2 release below 60 C for waste-heat regeneration.
Additional Articles
⭐⭐⭐⭐⭐
Researchers in Moscow report that ambient air heating of single-walled carbon nanotubes doubles surface area and increases CO2 uptake.
⭐⭐⭐
Chiba University researchers reported viciazites with adjacent nitrogen sites that improved CO2 uptake and enabled desorption below 60 C for potentially lower-energy regeneration.
Researchers at Chiba University report viciazites nitrogen-doped carbon materials that capture CO2 and release most CO2 below 60 C for potentially lower-energy capture.
Chiba University researchers report viciazites carbon materials with adjacent nitrogen groups enabling CO2 release below 60 C for lower-energy capture.
Scientists at Chiba University in Japan report viciazite, a nitrogen-architected CO2 adsorbent that enables low-temperature CO2 desorption for reduced carbon capture energy use.
Chiba University researchers reported viciazite nitrogen-functionalized carbon adsorbents with adjacent -NH2 groups that improved CO2 uptake and enabled regeneration below 60 C.