1989
DOI: 10.1021/cr00091a003
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Magnetic field effects in chemical kinetics and related phenomena

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Cited by 1,569 publications
(1,589 citation statements)
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References 31 publications
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“…Since the viscosity of TMPA TFSI (72.6 cP) is much larger than that of 2-methyl-1-propanol (3.3 cP), the escaping process of the triplet pairs in TMPA TFSI should be slow. Thus a part of the triplet pairs can convert to the singlet pairs, even at 0 T, and disappear by the recombination process, as shown BP + hν (355 nm) f 1 BP* f 3 BP* (1) in Figure 3(a). The escaped radical (Y esc ) at 0 T in TMPA TFSI was estimated to be 0.84, which was discussed later.…”
Section: Resultsmentioning
confidence: 90%
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“…Since the viscosity of TMPA TFSI (72.6 cP) is much larger than that of 2-methyl-1-propanol (3.3 cP), the escaping process of the triplet pairs in TMPA TFSI should be slow. Thus a part of the triplet pairs can convert to the singlet pairs, even at 0 T, and disappear by the recombination process, as shown BP + hν (355 nm) f 1 BP* f 3 BP* (1) in Figure 3(a). The escaped radical (Y esc ) at 0 T in TMPA TFSI was estimated to be 0.84, which was discussed later.…”
Section: Resultsmentioning
confidence: 90%
“…The decrease of R(B) at 0 T < B e 2 T and the saturation of MFEs at 2 T < B e 10 T can safely be explained by the ∆gM, which originates from the difference between the isotropic g factors of two radicals in a pair, 1,2,16,18 because the present radical pair of BPH• (g ) 2.0030) and •SPh (g ) 2.0082) has a large ∆g value of 0.0052. 18 Moreover, the plots of R(B) vs B 1/2 have a good linear relationship, as shown in Figure 2 (inset).…”
Section: Resultsmentioning
confidence: 96%
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“…This coupling drives the so-called "spin-flip" transition, mediating population transfer specifically between the singlet and the T 0 triplet state [22]. If we silence this coupling, then the relatively weak hyperfine field (∼ 1mT) is easily overcome by an externally applied field, leading to MFEs that saturate at very small fields.…”
Section: Apr 2016mentioning
confidence: 99%
“…[6][7][8][9] Transient absorption studies 10 have shown that coherent interconversion of the electronic singlet and triplet states of the radical pair gives rise to long lived states of the protein whose quantum yields can be modified by applied magnetic fields via the well-established radical pair mechanism. 11,12 Studies of the magnetic sensitivity of cryptochromes are currently constrained by the relatively high protein concentrations and large sample volumes required for absorption-based spectroscopy and by the photo-degradation caused by the intense laser pulses often needed for such measurements. 13,14 Cryptochromes -in particular the vertebrate proteins -are difficult to express recombinantly in large quantities and tend to aggregate in concentrated solution.…”
mentioning
confidence: 99%