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Yuri N. Palyanov
Researcher at Novosibirsk State University
Publications - 108
Citations - 2903
Yuri N. Palyanov is an academic researcher from Novosibirsk State University. The author has contributed to research in topics: Diamond & Crystallization. The author has an hindex of 27, co-authored 97 publications receiving 2393 citations. Previous affiliations of Yuri N. Palyanov include Russian Academy of Sciences.
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Journal ArticleDOI
Effect of Nitrogen Impurity on Diamond Crystal Growth Processes
Yuri N. Palyanov,Yuri N. Palyanov,Yuri M. Borzdov,Alexander F. Khokhryakov,Igor N. Kupriyanov,Alexander G. Sokol +5 more
TL;DR: In this article, the influence of nitrogen concentration in metal melts on the growth processes, morphology, and defect-and-impurity structure of diamond crystals was reported, and it was found that, with increasing nitrogen concentration (CN) in the metal melt from 0.005 to 0.6 atom %, the growth of single crystal diamond is followed by formation of aggregates of block twinned crystals and then by crystallization of metastable graphite.
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Optical and microwave control of germanium-vacancy center spins in diamond
Petr Siyushev,Mathias H. Metsch,Aroosa Ijaz,Jan M. Binder,Mihir K. Bhaskar,Denis D. Sukachev,Denis D. Sukachev,Alp Sipahigil,Ruffin E. Evans,Christian Nguyen,Mikhail D. Lukin,Philip R. Hemmer,Yuri N. Palyanov,Yuri N. Palyanov,Igor N. Kupriyanov,Igor N. Kupriyanov,Yuri M. Borzdov,Yuri M. Borzdov,Lachlan J. Rogers,Fedor Jelezko +19 more
TL;DR: In this paper, optical and electron-spin properties of a germanium-vacancy defect in diamond were presented, where the defect center combines high brightness and exceptional spectral stability with microwave and optical access to electron spin.
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Mantle–slab interaction and redox mechanism of diamond formation
Yuri N. Palyanov,Yuliya V. Bataleva,Yuliya V. Bataleva,Alexander G. Sokol,Alexander G. Sokol,Yuri M. Borzdov,Igor N. Kupriyanov,V.N. Reutsky,Nikolai V. Sobolev +8 more
TL;DR: The redox mechanism revealed in this study is used to explain the contrasting heterogeneity of natural diamonds, as seen in the composition of inclusions, carbon isotopic composition, and nitrogen impurity content.
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Germanium: a new catalyst for diamond synthesis and a new optically active impurity in diamond.
TL;DR: The results have widened the family of non-metallic elemental catalysts for diamond synthesis and demonstrated the creation of germanium-related optical centres in diamond.
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Diamond formation through carbonate-silicate interaction
Yuri N. Palyanov,Alexander G. Sokol,Yuri M. Borzdov,Alexander F. Khokhryakov,Nikolay V. Sobolev +4 more
TL;DR: In a series of experiments, diamond was obtained in association with enstatite, coesite, and magnesite, as well as with forsterite, enstatitic, and Magnesite.