Author
Listed:
- Yi Yang
(East China Normal University
Virginia Tech
East China Normal University)
- Bo Chen
(Center for Energy Harvesting Materials and Systems)
- James Hower
(Center for Applied Energy Research)
- Michael Schindler
(Laurentian University)
- Christopher Winkler
(Institute for Critical Technology and Applied Science, Virginia Tech)
- Jessica Brandt
(Duke University)
- Richard Giulio
(Duke University)
- Jianping Ge
(East China Normal University)
- Min Liu
(East China Normal University)
- Yuhao Fu
(Jilin University)
- Lijun Zhang
(Jilin University)
- Yuru Chen
(East China Normal University)
- Shashank Priya
(Center for Energy Harvesting Materials and Systems)
- Michael F. Hochella
(Virginia Tech
Geosciences Group, Energy and Environment Directorate, Pacific Northwest National Laboratory)
Abstract
Coal, as one of the most economic and abundant energy sources, remains the leading fuel for producing electricity worldwide. Yet, burning coal produces more global warming CO2 relative to all other fossil fuels, and it is a major contributor to atmospheric particulate matter known to have a deleterious respiratory and cardiovascular impact in humans, especially in China and India. Here we have discovered that burning coal also produces large quantities of otherwise rare Magnéli phases (Ti x O2x–1 with 4 ≤ x ≤ 9) from TiO2 minerals naturally present in coal. This provides a new tracer for tracking solid-state emissions worldwide from industrial coal-burning. In its first toxicity testing, we have also shown that nanoscale Magnéli phases have potential toxicity pathways that are not photoactive like TiO2 phases, but instead seem to be biologically active without photostimulation. In the future, these phases should be thoroughly tested for their toxicity in the human lung.
Suggested Citation
Yi Yang & Bo Chen & James Hower & Michael Schindler & Christopher Winkler & Jessica Brandt & Richard Giulio & Jianping Ge & Min Liu & Yuhao Fu & Lijun Zhang & Yuru Chen & Shashank Priya & Michael F. H, 2017.
"Discovery and ramifications of incidental Magnéli phase generation and release from industrial coal-burning,"
Nature Communications, Nature, vol. 8(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00276-2
DOI: 10.1038/s41467-017-00276-2
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