Zobrazeno 1 - 10
of 29
pro vyhledávání: '"Cameron Halliday"'
Publikováno v:
Nature Communications, Vol 9, Iss 1, Pp 1-9 (2018)
Chromium and arsenic are prevalent water pollutants, but their removal is currently limited by low selectivity. Here, the authors use redox-active metallopolymer electrodes based on poly(vinyl)ferrocene to selectively remove the two heavy metal oxyan
Externí odkaz:
https://doaj.org/article/bf8778d43934447eafb390ded2132ede
Autor:
T. Alan Hatton, Cameron Halliday
Publikováno v:
Industrial & Engineering Chemistry Research. 60:9313-9346
Autor:
T. Alan Hatton, Cameron Halliday
Publikováno v:
Industrial & Engineering Chemistry Research. 59:22582-22596
Bioenergy with carbon capture and storage (BECCS) offers a unique opportunity to realize net-negative emissions, such that the system actively removes CO2 from the atmosphere, while also producing ...
Publikováno v:
ACS Applied Materials & Interfaces. 12:51468-51477
Molten alkali metal borates have been proposed as energy-efficient sorbents for the low-cost capture of CO2 at high temperatures. The molten sorbents could help to mitigate global warming by capturing CO2 from industrial sources and preventing the re
Publikováno v:
ChemSusChem. 13:3865-3874
An electrochemical flow cell with redox-active electrodes was used for selective removal and recovery of vanadium(V) oxyanions from aqueous streams. The cell relies on intrinsic affinity of the redox-active polymer poly(vinyl)ferrocene (PVFc) and dem
Publikováno v:
ACS Sustainable Chemistry & Engineering. 8:8356-8361
An ethylenediamine-functionalized ionic liquid (IL) was synthesized for CO₂ capture from industrial gases, with good CO₂ absorption capacity of around 0.95 mmol (42 mg) of CO₂/g of IL at 35 °C. In contrast to conventional gas desorption via ut
Publikováno v:
Industrial & Engineering Chemistry Research. 59:8937-8945
The molten alkali metal borates represent an opportunity for carbon dioxide capture and the on-going challenge of adapting to a carbon-constrained world with the immediacy of climate change. We dem...
Publikováno v:
Chemistry of Materials. 32:348-359
Carbon capture, utilization, and storage technologies are needed to meet carbon emission reduction targets and prepare the energy industry for a carbon constrained world. Recent breakthroughs have ...
Publikováno v:
Journal of Materials Chemistry A. 7:21827-21834
The development of efficient low cost CO2 capture systems is a critical challenge for mitigating climate change while meeting global energy demand. Herein, we demonstrate the first liquid absorbents for CO2 capture at medium to high temperatures (500
Publikováno v:
Environmental sciencetechnology. 54(10)
Materials designed for CO2 capture provide both an opportunity and a challenge in that industrial emissions typically contain an assortment of acid gasses, which may include SOx and NOx alongside C...