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Laser-induced continuous generation of Ni nanoparticles for organic synthesis. / Smikhovskai, A. V.; Kochemirovskaya, S. V.; Novomlinskii, M. O.; Fogel', A. A.; Lebedev, D. V.; Kochemirovsky, V. A.; Ermakov, S. S.; Menchikov, L. G.

In: Russian Chemical Bulletin, Vol. 68, No. 11, 2019, p. 2020-2027.

Research output: Contribution to journalArticlepeer-review

Harvard

Smikhovskai, AV, Kochemirovskaya, SV, Novomlinskii, MO, Fogel', AA, Lebedev, DV, Kochemirovsky, VA, Ermakov, SS & Menchikov, LG 2019, 'Laser-induced continuous generation of Ni nanoparticles for organic synthesis', Russian Chemical Bulletin, vol. 68, no. 11, pp. 2020-2027.

APA

Smikhovskai, A. V., Kochemirovskaya, S. V., Novomlinskii, M. O., Fogel', A. A., Lebedev, D. V., Kochemirovsky, V. A., Ermakov, S. S., & Menchikov, L. G. (2019). Laser-induced continuous generation of Ni nanoparticles for organic synthesis. Russian Chemical Bulletin, 68(11), 2020-2027.

Vancouver

Smikhovskai AV, Kochemirovskaya SV, Novomlinskii MO, Fogel' AA, Lebedev DV, Kochemirovsky VA et al. Laser-induced continuous generation of Ni nanoparticles for organic synthesis. Russian Chemical Bulletin. 2019;68(11):2020-2027.

Author

Smikhovskai, A. V. ; Kochemirovskaya, S. V. ; Novomlinskii, M. O. ; Fogel', A. A. ; Lebedev, D. V. ; Kochemirovsky, V. A. ; Ermakov, S. S. ; Menchikov, L. G. / Laser-induced continuous generation of Ni nanoparticles for organic synthesis. In: Russian Chemical Bulletin. 2019 ; Vol. 68, No. 11. pp. 2020-2027.

BibTeX

@article{d154c7b9a0e840b58ffe3f9ebcbef667,
title = "Laser-induced continuous generation of Ni nanoparticles for organic synthesis",
abstract = "The possibilities of laser-induced liquid phase chemical deposition (LCLD) of metal for continuous generation of nickel nanoparticles, the sizes of which allow their use as a catalyst for organic reactions are considered. The conditions for obtaining Ni nanoparticles by this method were optimized.",
keywords = "laser-induced liquid phase chemical deposition, laser-induced deposition, nickel, solution, nanoparticle, catalyst, INDUCED COPPER DEPOSITION, EFFICIENT GREEN CATALYST, THERMAL-DECOMPOSITION, NICKEL, REDUCTION, COKING, SUPPORT, METHANE, SILICA, ROUTE",
author = "Smikhovskai, {A. V.} and Kochemirovskaya, {S. V.} and Novomlinskii, {M. O.} and Fogel', {A. A.} and Lebedev, {D. V.} and Kochemirovsky, {V. A.} and Ermakov, {S. S.} and Menchikov, {L. G.}",
note = "Smikhovskaia, A.V., Kochemirovskaya, S.V., Novomlinskii, M.O. et al. Russ Chem Bull (2019) 68: 2020. https://doi.org/10.1007/s11172-019-2661-6",
year = "2019",
language = "Английский",
volume = "68",
pages = "2020--2027",
journal = "Russian Chemical Bulletin",
issn = "1066-5285",
publisher = "Springer Nature",
number = "11",

}

RIS

TY - JOUR

T1 - Laser-induced continuous generation of Ni nanoparticles for organic synthesis

AU - Smikhovskai, A. V.

AU - Kochemirovskaya, S. V.

AU - Novomlinskii, M. O.

AU - Fogel', A. A.

AU - Lebedev, D. V.

AU - Kochemirovsky, V. A.

AU - Ermakov, S. S.

AU - Menchikov, L. G.

N1 - Smikhovskaia, A.V., Kochemirovskaya, S.V., Novomlinskii, M.O. et al. Russ Chem Bull (2019) 68: 2020. https://doi.org/10.1007/s11172-019-2661-6

PY - 2019

Y1 - 2019

N2 - The possibilities of laser-induced liquid phase chemical deposition (LCLD) of metal for continuous generation of nickel nanoparticles, the sizes of which allow their use as a catalyst for organic reactions are considered. The conditions for obtaining Ni nanoparticles by this method were optimized.

AB - The possibilities of laser-induced liquid phase chemical deposition (LCLD) of metal for continuous generation of nickel nanoparticles, the sizes of which allow their use as a catalyst for organic reactions are considered. The conditions for obtaining Ni nanoparticles by this method were optimized.

KW - laser-induced liquid phase chemical deposition

KW - laser-induced deposition

KW - nickel

KW - solution

KW - nanoparticle

KW - catalyst

KW - INDUCED COPPER DEPOSITION

KW - EFFICIENT GREEN CATALYST

KW - THERMAL-DECOMPOSITION

KW - NICKEL

KW - REDUCTION

KW - COKING

KW - SUPPORT

KW - METHANE

KW - SILICA

KW - ROUTE

UR - https://link.springer.com/article/10.1007/s11172-019-2661-6

M3 - статья

VL - 68

SP - 2020

EP - 2027

JO - Russian Chemical Bulletin

JF - Russian Chemical Bulletin

SN - 1066-5285

IS - 11

ER -

ID: 49775869