C
Carolyn I. Pearce
Researcher at Pacific Northwest National Laboratory
Publications - 180
Citations - 5863
Carolyn I. Pearce is an academic researcher from Pacific Northwest National Laboratory. The author has contributed to research in topics: Chemistry & Magnetite. The author has an hindex of 32, co-authored 154 publications receiving 4745 citations. Previous affiliations of Carolyn I. Pearce include Washington State University & Lawrence Berkeley National Laboratory.
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The removal of colour from textile wastewater using whole bacterial cells: a review
TL;DR: The use of whole bacterial cells for the reduction of water-soluble dyes present in textile dyeing wastewater has been investigated in this paper, with a focus on the use of bacteria-polymer composites for the removal of colour from reactive dye effluents.
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Redox cycling of Fe(II) and Fe(III) in magnetite by Fe-metabolizing bacteria.
James M. Byrne,Nicole Klueglein,Carolyn I. Pearce,Carolyn I. Pearce,Kevin M. Rosso,Erwin Appel,Andreas Kappler +6 more
TL;DR: It is demonstrated that Fe ions bound in the highly crystalline mineral magnetite are bioavailable as electron sinks and electron sources under varying environmental conditions, effectively rendering magnetite a naturally occurring battery.
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Electrical and magnetic properties of sulfides
TL;DR: In this article, the theory and measurement of electrical and magnetic properties of sulfide minerals are outlined along with spectroscopic and diffraction studies that can provide insights into magnetic behavior.
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XAS and XMCD evidence for species-dependent partitioning of arsenic during microbial reduction of ferrihydrite to magnetite.
V. S. Coker,Andrew G. Gault,Carolyn I. Pearce,G. van der Laan,Neil D. Telling,John M. Charnock,David A. Polya,Jonathan R. Lloyd +7 more
TL;DR: In both experiments, no increase in dissolved As was observed during reduction to magnetite (complete upon 5 days incubation), consistent with earlier observation of As sequestration by the formation of biogenic Fe(III)-bearing minerals.
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Successful Decontamination of 99 TcO 4 − in Groundwater at Legacy Nuclear Sites by a Cationic Metal‑Organic Framework with Hydrophobic Pockets
Daopeng Sheng,Lin Zhu,Xing Dai,Chao Xu,Peng Li,Carolyn I. Pearce,Chengliang Xiao,Chengliang Xiao,Jing Chen,Ruhong Zhou,Tao Duan,Omar K. Farha,Zhifang Chai,Shuao Wang +13 more
TL;DR: Decontamination experiments confirm that SCU-102 represents the optimal Tc scavenger with the highest reported clean-up efficiency, while first-principle simulations reveal that the origin of the selectivity is the recognition of TcO4 - by the hydrophobic pockets of the structure.