Review of the electrodeposition of molybdenum carbide on the surfaces of disperse dielectric and semiconductor materials

JANAF (1971) Thermochemical Tables, Nat. Bureau Stand. USA.Search in Google Scholar

Kosopalov TYa (1986) Svoistva, poluchenie i primenenie tugoplavkikh soedinenii: Spravochnik (Properties, Preparation, and Application of High-Melting Compounds: Reference Book) Moscow: Metallurgiya.Search in Google Scholar

Kushkhov KhB, Shapoval VL, Novoselova IA (1987) Electrokhimiya 23(7): 952-956.10.1109/TIA.1987.4505007Search in Google Scholar

Malyshev VV (1999) Poverkhnostnye yavleniya na granitse razdela karbidov kremniya i bora s ionnymi rasplavami (Surfacial Phenomena at Silican and Boron Carbides Interfaces with Ionic Melts), Poverkhnost’. Fizika, Khimiya, Mekhanika 1999(5/6): 153.Search in Google Scholar

Malyshev VV (2007) Teoreticheskiye osnovy I prakticheskaya realizatsiya elektroosazhdeniya molibdena iz ionnykh rasplavov (Theoretical Backgrounds and Practical Realization of Molybdenum Electrodeposition from Ionic Melts), Teor. Osnovy Khim. Tekhnol. 41(3): 302.Search in Google Scholar

Malyshev VV, Gab AI, Gaune-Escard M (2008) Initial stages of nucleation of molybdenum and tungsten carbide phases in tungstate-molybdate-carbonate melts, J. Applied Electrochem. 38: 315.10.1007/s10800-007-9440-zSearch in Google Scholar

Malyshev VV, Novoselova IA, Gab AI, Pisanenko AD, Shapoval VI (2000) Teoreticheskiye osnovy tekhnologiy gaľvanicheskoy obrabotki dielektrikov i poluprovodnikov v ionnykh rasplavakh (Theoretical Backgrounds of Technologies of Galvanic Processing of Dielectrics and Semiconductors in Ionic Melts), Teor. Osnovy Khim. Tekhnol. 34(4): 435.Search in Google Scholar

Malyshev VV, Novoselova IA, Gab AI, Sarychev SY (2003) Environmentally appropriate technologies and resourse saving in high-temperature electrochemical synthesis, deposition of metal coatings on superhard materials, and processing of used cutting and boring tools. In book: ≪Green Industrial Applications of Ionic Liquids≫, R.D.Rogers et al., Eds, Kluwer Academic Publishers, Netherlands, 2003, p. 517.Search in Google Scholar

Malyshev VV, Uskova NN (2000) Gaľvanicheskiye pokrytiya karbida molibdena na metallicheskikh, poluprovodnikovykh i dielektricheskikh materialah (Galvanic Coatings of Molybdenum Carbide on Metallic, Semiconductor, and Dielectric Materials), Sverkhtverdye Materialy 2000(3): 73.Search in Google Scholar

Naidich YuV, Lavrinenko IA, Volk GP (1983) Fiziko-khimicheskie osnovy i metody naneseniya metallicheskikh pokrytii na almazy i sozdanie na ikh osnove instrumentov s povyshennymi ekspluatatsionnymi svoistvami (The Physicochemical Basics and the Procedures for the Deposition of Metallic Coatings on Diamond and the Creation of Tools with Improved Operating Properties on this Basis), Kiev: Naukova Dumka: 122-127.Search in Google Scholar

Naumov GV, Ryzhenko VN, Khodakovskii IL (1978) Spravochnik termodinamicheskikh velichin (Reference Book on Thermodynamic Values), Moscow: Atomizdat.Search in Google Scholar

Novikov NV (1987) Fizicheskie svoistva almaza: Spravochnik (Physical Properties of Diamond: Reference Book) Kiev: Naukova Dumka.Search in Google Scholar

Novoselova IA, Malyshev VV, Gab AI, Shapoval VI (2001) Elektrokhimicheskaya metallizatsiya almazov karbidami molibdena i voľframa (Electrochemical Metallization of Diamond by Molybdenum and Tungsten Carbides), Sverkhtverdye Materialy 2001(3): 3.Search in Google Scholar

Shapoval VI, Malyshev VV, Novoselova, IA, Kushkhov KhB (1994) Zh. Prikl. Khim. 67(6): 928-934.Search in Google Scholar

Soloviev VV, Malyshev VV, Gab AI (2005) Fizikokhimicheskoye izucheniye mezhfaznoy granitsy almaz - ionnyi rasplav (Physico-Chemical Studies of the Diamond - Ionic Melt Interface), Poverkhnosť. Rentgenovskiye, Sinkhrotronnye i Neytronnye Issledovaniya 2005(9): 72.Search in Google Scholar