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Studying spin echo

Electron Spin Resonance Spectroscopy. Several ESR studies have been reported for adsorption systems [85-90]. ESR signals are strong enough to allow the detection of quite small amounts of unpaired electrons, and the shape of the signal can, in the case of adsorbed transition metal ions, give an indication of the geometry of the adsorption site. Ref. 91 provides a contemporary example of the use of ESR and of electron spin echo modulation (ESEM) to locate the environment of Cu(II) relative to in a microporous aluminophosphate molecular sieve. [Pg.586]

In electron spin echo relaxation studies, the two-pulse echo amplitude, as a fiinction of tire pulse separation time T, gives a measure of the phase memory relaxation time from which can be extracted if Jj-effects are taken into consideration. Problems may arise from spectral diflfrision due to incomplete excitation of the EPR spectrum. In this case some of the transverse magnetization may leak into adjacent parts of the spectrum that have not been excited by the MW pulses. Spectral diflfrision effects can be suppressed by using the Carr-Purcell-Meiboom-Gill pulse sequence, which is also well known in NMR. The experiment involves using a sequence of n-pulses separated by 2r and can be denoted as [7i/2-(x-7i-T-echo) J. A series of echoes separated by lx is generated and the decay in their amplitudes is characterized by Ty. ... [Pg.1578]

Pulsed ENDOR offers several distinct advantages over conventional CW ENDOR spectroscopy. Since there is no MW power during the observation of the ESE, klystron noise is largely eliminated. Furthemiore, there is an additional advantage in that, unlike the case in conventional CW ENDOR spectroscopy, the detection of ENDOR spin echoes does not depend on a critical balance of the RE and MW powers and the various relaxation times. Consequently, the temperature is not such a critical parameter in pulsed ENDOR spectroscopy. Additionally the pulsed teclmique pemiits a study of transient radicals. [Pg.1581]

In addition to the above techniques, inverse gas chromatography, swelling experiments, tensile tests, mechanical analyses, and small-angle neutron scattering have been used to determine the cross-link density of cured networks (240—245). Si soHd-state nmr and chemical degradation methods have been used to characterize cured networks stmcturaHy (246). H- and H-nmr and spin echo experiments have been used to study the dynamics of cured sihcone networks (247—250). [Pg.49]

While the nuclear magnetic resonance (NMR) technique has widely been used to study diffusion processes of normal liquids, solids, or colloidal systems, there are only a few applications to molten salts. The spin echo self-diffusion method with pulsed field gradients was applied to molten salts by Herdlicka et al. "" There is no need to set up or maintain a concentration gradient. [Pg.162]

Riedel A, S Fetzner, M Rampp, F Lingens, U Liebl, J-L Zrmmermann, W Nitschke (1995) EPR, electron spin echo envelope modulation, and electron nuclear double resonance studies of the 2Ee-2S centers of the 2-halobenzoate 1,2-dioxygenase from Burkholderia (Pseudomonas) cepacia 2CBS. J Biol Chem 270 30869-30873. [Pg.293]

Other possible direct probes are optical experiments similar to studies [113] of vesicles but expanded towards shorter A (20-30 A). Alternatively neutron spin-echo studies of stacked bilayer arrays, which can probe the 10-30 A range [114], might possibly be applicable here. Finally, the x-ray grazing-incidence technique has been shown to be a powerful tool for studying short wavelength fluctuations at fluid interfaces [100]. The application of this technique to the investigation of membrane surface fluctuations can reasonably be expected in the near future [115,116]. [Pg.94]

The SHV flow regime has been studied systematically using the spin-echo and FLASH imaging sequences [39]. Figure 4.4.6 describes the steps for extracting... [Pg.423]

A few relatively recent published examples of the use of NMR spectroscopy for studying polymer degradation/oxidation processes will now be discussed briefly. At the early stages of degradation, the technique can be used to provide chemical identification and quantification of oxidised species for polyolefins, oxidation sites can be identified by the chemical shifts of -CH2- groups a and ji to carbons bonded to oxygen [85]. Spin-spin relaxation times may be determined by a pulse sequence known as the Hahn spin-echo pulse sequence. [Pg.430]

K. Fukui, Y. Fujisawa, H. Ohya-Nishiguchi, H. Kamada and H. Sakurai, In vivo coordination structural changes of a potent insulin-mimetic agent, bis(picolinato)oxovanadium(IV), studied by electron spin-echo modulation spectroscopy, J. Inorg. Biochem., 1999, 77, 215. [Pg.168]

Brown FF, Campbell ID, Kuchel PW, Rabenstein DC (1977) Human erythrocyte metabolism studies by H-l spin-echo NMR. FEBS Lett 82 12-16... [Pg.112]

Another study of the surface structure of CdSe NCs of 3.7 nm size used 31P MAS-NMR and 31P/77Se rotational-echo double-resonance (REDOR) to identify overlapping broad peaks from two surface species trioctylphosphine oxide (TOPO) at 29.3 ppm and trioctylphosphine selenide (TOPSe) at 22.2 ppm [343]. Both the isotropic chemical shift and CSA of the surface-bound TOPO were substantially different from those of the free ligand. Spin-echo experiments on 31P were stated to indicate an average P-P distance of 8-10 A at the surface, consistent with capping at alternate atomic sites (all Cd but not Se). [Pg.293]

The exact nature of the NO-releasing reaction and the other products of reaction in mammalian tissue are still unclear. The matter has been discussed by a number of authors and a reductive mechanism in rat hepatocytes and human erythrocytes has been suggested in the presence of NADH and NADPH. Nitroprusside can pass through cell membranes and so there is no intrinsic difficulty with this suggestion. There is direct evidence from spin echo NMR studies to show the conversion, by nitroprusside, of glutathione into glutathione disulfide within erythrocytes [49]. [Pg.211]

Fig. 4 shows the application of a 1-D SPRITE technique to map the distribution of coke within a model fixed bed. In this particular example two layers of coked HZSM-5 were separated by a layer of fresh HZSM-5 (Fig. 4a).21 Each layer was 3.3 cm in length. Fig. 4b shows the profile of coke within the sample recorded by 1H SPRITE imaging these data were recorded in 15 min. The coke had a EEC ratio of 0.5, as determined by elemental analysis and the T2 of the sample was 65 ps—far shorter than could be studied using conventional spin-echo methods. It is worth emphasizing that SPRITE is mapping the coke directly in this experiment, although it should be noted that since it is imaging the H signal, as the coke becomes more graphitic in nature the amount of available H species that can be imaged will... Fig. 4 shows the application of a 1-D SPRITE technique to map the distribution of coke within a model fixed bed. In this particular example two layers of coked HZSM-5 were separated by a layer of fresh HZSM-5 (Fig. 4a).21 Each layer was 3.3 cm in length. Fig. 4b shows the profile of coke within the sample recorded by 1H SPRITE imaging these data were recorded in 15 min. The coke had a EEC ratio of 0.5, as determined by elemental analysis and the T2 of the sample was 65 ps—far shorter than could be studied using conventional spin-echo methods. It is worth emphasizing that SPRITE is mapping the coke directly in this experiment, although it should be noted that since it is imaging the H signal, as the coke becomes more graphitic in nature the amount of available H species that can be imaged will...
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See also in sourсe #XX -- [ Pg.128 , Pg.129 , Pg.145 ]



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