Ivan V Skovpin
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Explore the profile of Ivan V Skovpin including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
165
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Recent Articles
1.
Kononenko E, Skovpin I, Kovtunova L, Koptyug I
J Phys Chem Lett
. 2025 Jan;
16(2):650-657.
PMID: 39784717
Nuclear magnetic resonance is extremely attractive for operando studies of chemical reactors. However, the heterogeneous catalyst particles placed inside an NMR probe greatly affect the uniformity of the magnetic field....
2.
Assaf C, Gui X, Salnikov O, Brahms A, Chukanov N, Skovpin I, et al.
Commun Chem
. 2024 Dec;
7(1):286.
PMID: 39627452
The signal amplification by reversible exchange process (SABRE) enhances NMR signals by unlocking hidden polarization in parahydrogen through interactions with to-be-hyperpolarized substrate molecules when both are transiently bound to an...
3.
Sviyazov S, Babenko S, Skovpin I, Kovtunova L, Chukanov N, Stakheev A, et al.
Phys Chem Chem Phys
. 2024 Feb;
26(9):7821-7829.
PMID: 38375632
Symmetric molecules exist as distinct nuclear spin isomers (NSIMs). A deeper understanding of their properties, including interconversion of different NSIMs, requires efficient techniques for NSIM enrichment. In this work, selective...
4.
Nartova A, Kvon R, Kovtunova L, Skovpin I, Koptyug I, Bukhtiyarov V
Int J Mol Sci
. 2023 Nov;
24(21).
PMID: 37958626
Immobilized [Ir(COD)Cl]-Linker/TiO catalysts with linkers containing Py, P(Ph) and N(CH) functional groups were prepared. The catalysts were tested via propene hydrogenation with parahydrogen in a temperature range from 40 °C...
5.
Trepakova A, Skovpin I, Chukanov N, Salnikov O, Chekmenev E, Pravdivtsev A, et al.
J Phys Chem Lett
. 2022 Oct;
13(44):10253-10260.
PMID: 36301252
Magnetic resonance imaging (MRI) provides unique information about the internal structure and function of living organisms in a non-invasive way. The use of conventional proton MRI for the observation of...
6.
Them K, Ellermann F, Pravdivtsev A, Salnikov O, Skovpin I, Koptyug I, et al.
J Am Chem Soc
. 2021 Aug;
143(34):13694-13700.
PMID: 34406748
The hyperpolarization of nuclear spins is a game-changing technology that enables hitherto inaccessible applications for magnetic resonance in chemistry and biomedicine. Despite significant advances and discoveries in the past, however,...
7.
Skovpin I, Svyatova A, Chukanov N, Chekmenev E, Kovtunov K, Koptyug I
Chemistry
. 2019 Jul;
25(55):12694-12697.
PMID: 31338889
Signal Amplification by Reversible Exchange (SABRE) is a promising method for NMR signal enhancement and production of hyperpolarized molecules. As nuclear spin relaxation times of heteronuclei are usually much longer...
8.
Svyatova A, Skovpin I, Chukanov N, Kovtunov K, Chekmenev E, Pravdivtsev A, et al.
Chemistry
. 2019 Apr;
25(36):8465-8470.
PMID: 30950529
Magnetic Resonance Imaging (MRI) is a powerful non-invasive diagnostic method extensively used in biomedical studies. A significant limitation of MRI is its relatively low signal-to-noise ratio, which can be increased...
9.
Pravdivtsev A, Skovpin I, Svyatova A, Chukanov N, Kovtunova L, Bukhtiyarov V, et al.
J Phys Chem A
. 2018 Oct;
122(46):9107-9114.
PMID: 30295488
Signal Amplification By Reversible Exchange (SABRE) is a new and rapidly developing hyperpolarization technique. The recent discovery of Spin-Lock Induced Crossing SABRE (SLIC-SABRE) showed that high field hyperpolarization transfer techniques...
10.
Parahydrogen-Induced Polarization Study of the Silica-Supported Vanadium Oxo Organometallic Catalyst
Zhivonitko V, Skovpin I, Szeto K, Taoufik M, Koptyug I
J Phys Chem C Nanomater Interfaces
. 2018 Sep;
122(9):4891-4900.
PMID: 30258526
Parahydrogen can be used in catalytic hydrogenations to achieve substantial enhancement of NMR signals of the reaction products and in some cases of the reaction reagents as well. The corresponding...