2018
DOI: 10.1103/physrevx.8.041014
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Rapid Evolution of the Photosystem II Electronic Structure during Water Splitting

Abstract: Photosynthetic water oxidation is a fundamental process that sustains the biosphere. A Mn4Ca cluster embedded in the photosystem II protein environment is responsible for the production of atmospheric oxygen. Here, time-resolved x-ray emission spectroscopy (XES) was used to observe the process of oxygen formation in real time. These experiments reveal that the oxygen evolution step, initiated by three sequential laser flashes, is accompanied by rapid (within 50 μs) changes to the Mn Kβ XES spectrum. However, n… Show more

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Cited by 39 publications
(69 citation statements)
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References 67 publications
(142 reference statements)
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“…This was done with a cumulative sample exposure of ~1 × 10 16 photons, or 5 × 10 15 photons for each state. This is in agreement with data achieved previously, only the detection system reduced the data collection requirement according to the 6‐fold increase in solid angle because of the new spectrometer design, and the sample delivery system conserved sample and significantly reduced the labor required.…”
Section: Time‐resolved X‐ray Emission Spectroscopysupporting
confidence: 91%
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“…This was done with a cumulative sample exposure of ~1 × 10 16 photons, or 5 × 10 15 photons for each state. This is in agreement with data achieved previously, only the detection system reduced the data collection requirement according to the 6‐fold increase in solid angle because of the new spectrometer design, and the sample delivery system conserved sample and significantly reduced the labor required.…”
Section: Time‐resolved X‐ray Emission Spectroscopysupporting
confidence: 91%
“…From the spectra, we detected a shift in the Kβ 1,3 peak from S 1 to S 2 toward lower energy. This shift indicates an average higher oxidation state (reduced localized spin density) for the average Mn atom in the OEC which is in agreement with previous results . A first moment analysis was also conducted on the raw data and a one‐way Anova analysis was used to find our confidence interval of 99.9% that a shift toward oxidation occurs between these states.…”
Section: Time‐resolved X‐ray Emission Spectroscopysupporting
confidence: 89%
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“…( Berkeley group) have studied this effect, for a wide range of OEC relevant Mn model compounds (ligands as above, including Mn oxides), as well as the OEC itself. Some more limited data, including Mn oxides, have been recently presented by Pushkar and colleagues . All groups see a closely clustering linear correlation for the model systems, between <E> and formal Mn oxidation state (from +2 to +4).…”
Section: Sample Turnovermentioning
confidence: 89%