Publikationen PD Dr. E. Lavrov
F. Herklotz, E. V. Lavrov, T. D. C. Hobson, J. D. Major, and K. Durose Charge carrier absorption in n-type Sb2Se3 Appl. Phys. Lett. 125, p. 122104 (2024)
I. Chaplygin, Z. Galazka, F. Herklotz, and E. V. Lavrov Ohmic contacts on SnO2 produced by hydrogen plasma treatment Appl. Phys. Lett. 125, p. 042101 (2024)
F. Herklotz, E. V. Lavrov, V. V. Melnikov, Z. Galazka, and V. F. Agekyan Comprehensive study of the interstitial hydrogen donor in SnO2 Phys. Rev. B 108, p. 205204 (2023)
E. V. Lavrov Subthreshold photodissociation of H2 in silicon Phys. Rev. A 106, p. 013116 (2022)
E. V. Lavrov, I. Chaplygin, F. Herklotz, V. V. Melnikov, and Y. Kutin, Hydrogen in single-crystallineanatase TiO2 J. Appl. Phys. 131, p. 030902 (2022)
F. Herklotz, E. V. Lavrov, and V. V. Melnikov, SO*4 in cadmium chalcogenides: CdSe versus CdTe Phys.Status Solidi B 259, p. 2200029 (2022)
F. Herklotz, E. V. Lavrov, T. D. C. Hobson, J. D. Major, and K. Durose, Oxygen in antimonytriselenide: An IR absorption study Appl.Phys. Lett. 120, p. 212101 (2022)
E. V. Lavrov, V. V. Melnikov, and N. V. Abrosimov
Interstitial H2 in 29Si
Phys. Rev. B 103, p. 205204 (2021)
F. Herklotz, E. V. Lavrov, and V. V. Melnikov,
SO*4 complex in CdTe: Infrared absorption spectroscopy and frst-principles calculations
Phys. Rev. B 104, p. 035204 (2021)
E. V. Lavrov, I. Chaplygin, F. Herklotz, and V. V. Melnikov
Hydrogen donors in anatase TiO2
Phys. Status Solidi B 258, p. 2100171 (2021)
E. V. Lavrov, I. Chaplygin, F. Herklotz, V. V. Melnikov, Y. Kutin, and L. Vines
Dominant hydrogen complex in natural anatase TiO2
J. Appl. Phys. 130, p. 145701 (2021)
F. Herklotz, S. Thiede, and E. Lavrov,
Vibrational signatures of substitutional oxygen in CdTe and CdSe
Phys. Status Solidi B 258, p. 2100203 (2021)
E. V. Lavrov, I. Chaplygin, and F. Herklotz
Infrared absorption study of a dihydrogen complex in anatase TiO2
Phys. Status Solidi B 257, p. 1900779 (2020)
F. Herklotz, E. V. Lavrov, and V. V. Melnikov
Substitutional Sulfur in CdSe: Localized Vibrational Modes
Phys. Status Solidi B 257, p. 2000204 (2020)
F. Herklotz, I. Chaplygin, E. V. Lavrov, A. Neiman, R. J. Reeves, and M. W. Allen
Bistability of a hydrogen defect with a vibrational mode at 3326 cm−1 in ZnO
Phys. Rev. B 99, p. 115203 (2019)
F. Herklotz, I. Chaplygin, E. V. Lavrov, and V. F. Agekyan
Photoconductive detection of a hydrogenrelated donor in SnO2
Appl. Phys. Lett. 114, p. 152103 (2019)
V. V. Melnikov, M. Hiller, and E. V. Lavrov
Two-dimensional H2 in Si: Raman scattering and modeling study
Phys. Rev. B 97, p. 125307, 2018
F. Herklotz, I. Chaplygin, and E. V. Lavrov
On the method of photoconductive detection of defects in semiconductors by vibrational mode-related Fano resonances
J. Appl. Phys. 124, p. 025704 (2018)
I. Chaplygin, F. Herklotz, and E. V. Lavrov
Reorientation kinetics of hydroxyl groups in anatase TiO2
J. Chem. Phys. 149, p. 044507 (2018)
E. V. Lavrov
Comment on _Structural, electronic, and optical properties of the C-C complex in bulk silicon from first principles [J. Appl. Phys. 123, 161421 (2018)]
J. Appl. Phys. 124, p. 086101 (2018)
E. V. Lavrov, I. Chaplygin, and T. Mchedlidze
Photoconductity as a method to probe defects in ultra thin Si films
Appl. Phys. Lett. 110, p. 132102 (2017)
V. V. Melnikov and E. V. Lavrov On the mechanism of ortho-para conversion of molecular hydrogen in semiconductors
Russ. Phys. J. 59, p. 2168 (2017)
A. J. Hupfer, E. V. Monakhov, B. G. Svensson, I. Chaplygin, and E. V. Lavrov
Hydrogen motion in rutile TiO2
Sci. Rep. 7, p. 17065 (2017)
E. V. Lavrov
Hydrogen donor in anatase TiO2
Phys. Rev. B 93, p. 045204, (2016)
E. V. Lavrov, T. Mchedlidze, and F. Herklotz
Photoconductive detection of hydrogen in ZnO and rutile TiO2
J. Appl. Phys. 120, p. 055703, (2016)
E. V. Lavrov, F. Herklotz, and J. Weber
Fano resonances in photoconductivity spectra of hydrogen donors in ZnO and rutile
Semicond. Sci. Technol. 30, p. 024004 (2015)
E. V. Lavrov
Infrared absorption on hydrogen in anatase TiO2
Phys. Status Solidi A 212, p. 1494 (2015)
F. Herklotz, A. Hupfer, K. M. Johansen, B. G. Svensson, S. G. Koch, and E. V. Lavrov
Infrared absorption on a complex comprising three equivalent hydrogen atoms in ZnO
Phys. Rev. B 92, p. 155203 (2015)
D. Bastin, E. V. Lavrov, and J. Weber
Reassignment of the OSe-VCd complex in CdSe
AIP Conference Proceedings 1583, p. 169 (2014)
S. G. Koch, E. V. Lavrov, and J. Weber
Cofirmation of freely rotating H2 in ZnO
AIP Conference Proceedings 1583, p. 345 (2014)
E. V. Lavrov, F. Herklotz, and Y. S. Kutin
Piezospectroscopic study of substitutional Ni in ZnO
AIP Conference Proceedings 1583, p. 350 (2014)
S. G. Koch, E. V. Lavrov, and J. Weber
Interplay between interstitial and substitutional hydrogen donors in ZnO
Phys. Rev. B 89, p. 235203 (2014)
S. G. Koch, E. V. Lavrov, and J. Weber
Towards understanding the hydrogen molecule in ZnO
Phys. Rev. B 90, p. 205212 (2014)
E. V. Lavrov, F. Herklotz, and Y. S. Kutin
Effect of uniaxial stress on substitutional Ni in ZnO
Solid State Commun. 159, p. 36 (2013)
Herklotz, F. ; Lavrov, Eduard V. ; Weber, J.:
Infrared absorption of the hydrogen donor in rutile TiO2 In Physical Review B 83 (2011), S. 235202
Lavrov, E.V. ; Bastin, D. ; Weber, J.:
Reassignment of the OTe-VCd complex in CdTe. In: Physical Review B 84 (2011), S. 233201
Scheffler, L. ; Kolkovsky, Vl. ; Lavrov, E.V. ; Weber, J.:
Deep level transient spectroscopy studies of n-type ZnO single crystals grown by different techniques. In: Journal of Physics: Condensed Matter 23 (2011), S. 334208
F. Herklotz, F. ; Lavrov, E.V. ; Weber, J. ; Mamin, G.V. ; Kutin, Y.S. ; Volodin, M.A. ; Orlinskii, S.B.:
Identification of shallow Al donors in ZnO. In: Phys. Status Solidi B 248 (2011), S. 1532-1537
Bastin, D. ; Lavrov, E.V. ; Weber, J.:
Metastable state of the VZnH2 defect in ZnO. In: Physical Review B 83 (2011)
Kolkovsky, Vl. ; Scheffler, L. ; Hieckmann, E. ; Lavrov, E.V. ; Weber, J.:
Schottky contacts on differently grown n-type ZnO single crystals. In: Applied Physics Letters 98 (2011), S. 082104
Koch, S. ; Lavrov, E.V. ; Weber, J.:
Rovibrational states of interstitial H2 in Si. In: Physical Review B 83 (2011), S. 233203
F. Herklotz, E. V. Lavrov, Vl. Kolkovsky, J. Weber, and M. Stavola
Charge states of a hydrogen defect with a local vibrational mode at 3326 cm-1 in ZnO
Phys. Rev. B 81, S. 035208 (2010)
Y.S. Kutin, G.V. Mamin, S.B. Orlinskii, N.I. Silkin, F. Herklotz, E.V. Lavrov, J. Weber
Identification of shallow Al donors in ZnO monocrystals by means of High-Frequency EPR and ENDOR spectroscopy
Proceedings XIII International Youth Scientific School “Actual Problems of Magnetic Resonance and its Application“, Kazan University, 4. - 8. October 2010 ISBN 978-5-98180-835-7
Y.S. Kutin, G.V. Mamin, S.B. Orlinskii, N.I. Silkin, F. Herklotz, E.V. Lavrov, J. Weber
Identification of shallow Al donors in ZnO monocrystals by means of High-Frequency EPR and ENDOR spectroscopy
Proceedings XIII International Youth Scientific School “Actual Problems of Magnetic Resonance and its Application“, Kazan University, 4. - 8. October 2010 ISBN 978-5-98180-835-7
F. Herklotz, E. V. Lavrov, Vl. Kolkovsky, J. Weber, and M. Stavola
Charge states of a hydrogen defect with a local vibrational mode at 3326 cm-1 in ZnO
Phys. Rev. B 81, S. 035208 (2010)
Herklotz, F.; Lavrov, E.V. ; Weber, Jörg,
On diffusion of Cu in ZnO.
Physical Review B 404 (2009), S. 4807-4809 (2009)
Lavrov, E.V. ; Herklotz, F. ; Weber, Jörg,
Identification of two hydrogen donors in ZnO.
Physical Review B 79 (2009), S. 16521001-16521013 (2009)
E.V. Lavrov,
Hydrogen in ZnO.
Physica B 404 (2009), S. 5075-5079 (2009)
Herklotz, Frank ; Lavrov, Eduard ; Weber, Jörg,
Photoluminescence study of hydrogen donors in ZnO.
Physica B 404 (2009), SS. 4349-4353 (2009)
Lavrov, Eduard ; Weber, Jörg,
Comment on "Infrared absorption spectroscopy on OH-Ni complex in hydrothermally grown ZnO".
Journal of Applied Physics 106 (2009), S. 086104 (2009)
Hiller, Martin ; Lavrov, Eduard V. ; Weber, Jörg,
Raman scattering study of H2 trapped within <111>-oriented platelets in Si.
Physical Review B 80 (2009), S. 45306-45306 (2009)
Lavrov, Eduard ; Hiller, Martin ; Weber, Jörg,
Raman scattering on H2 in platelets in silicon.
Physica B 404 (2009), S. 5085-5088 (2009)
E.V. Lavrov,J. Weber, F. Börrnert
Copper dihydrogen complex in ZnO
PHYSICAL REVIEW B77, pages 155209.2008 (2008)
E.V. Lavrov:
Hydrogen in ZnO: an infra-red absorption study
In Defects and Diffusion in Ceramics - an Annual Retrospective VI Defect and Diffusion Forum 226-228: 181-189 2004
Trans Tech Publications Ltd, Switzerland, ISSN: 1012-0386
E.V. Lavrov:
Ortho and Para States of Interstitial H2 in Silicon and Gallium Arsenide
Modern Physics Letters B Vol. 18, No. 11(2004)
E.V. Lavrov:
Raman scattering by hydrogen centers in silicon
Journal of Communications Technology and Electronic 49 (5) 479 - 492 (2004) 329-332
E.V. Lavrov, J. Weber:
Hydrogen molecules in GaAs
Physica B 340-342 (2003) 329-332
E.V. Lavrov, J. Weber:
Ortho and para interstitial H2 in silicon
Physica B 340-342 (2003) 646-649
E. V. Lavrov:
Infrared absorption spectroscopy of hydrogen-related defects in ZnO
Physica B 340-342, (2003) 195-200
E.V. Lavrov: Hydrogen in ZnO: an infra-red absorption study
In Defects and Diffusion in Ceramics - an Annual Retrospective VI Defect and Diffusion Forum 226-228: 181-189 2004
Trans Tech Publications Ltd, Switzerland, ISSN: 1012-0386
Vacancy-hydrogen defects in silicon studied by Raman spectroscopy
Phys. Rev. B 64, 035204 (2001).
E. V. Lavrov, M. Fanciulli, M. Kaukonen, R. Jones and P. R. Briddon:
Carbon-tin defects in silicon
Phys. Rev. B 64, 125212 (2001).
E. V. Lavrov and J. Weber:
Evolution of hydrogen platelets in silicon determined by polarized Raman spectroscopy
Phys. Rev. Lett. 87, 18 (2001).
E. V. Lavrov and M. Fanciulli:
Interstitial carbon-substitutional tin center in silicon
Physica B 302-303 (2001) 263-267.
E. V. Lavrov and J. Weber:
Structural properties of hydrogen-induced platelets in silicon: a Raman scattering study
Physica B 308-310 (2001) 151-154.
E. V. Lavrov, J. Weber, L. Huang and B. Bech Nielsen:
Raman scattering study of vacancy-hydrogen related defects in silicon
Physica B 308-310 (2001) 206-209.