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[ 2025 ] Microwave-assisted synthesis and catalytic activity of nano-sized molybdenum carbide in naphthalene hydrogenation. 
Reference: Artur Aghoyan, Argam V. Akopyan, Gurgen Aleksanyan, Davit Davtyan Heliyon, Volume 11, Issue 3, e42431
[ 2024 ] Rapid microwave-assisted synthesis of rare-earth hexaborides powders.
Reference: Raman Mnatsakanyan, Artur Aghoyan, Robert Adamyan, Suren Kharatyan, Argam V Akopyan, Davit Davtyan
[ 2023 ] Microwave-assisted synthesis of boron monophosphide nanopowder. 
Reference: Mnatsakanyan R., Aghoyan A., Davtyan D., Ceramics International, 49, 2, 3066-3069
[ 2023 ] Catalytic aerobic desulfurization of fuels in the presence of nanosized mixed carbide FeWC. 
Reference: Akopyan A. V., Eseva E. A., Mnatsakanyan R. A., Davtyan D. A, Chemical Engineering Journal, 464, 142641, Lukashov M.O., Levin I.S., Sadovnikov A.A., Anisimov A.V., Terzyan A.M., Agoyan A.M., Karakhanov E.
[ 2022 ] New Type of Catalyst for Ecient Aerobic Oxidative Desulfurization Based On Tungsten Carbide Synthesized by the Microwave Method. 
Reference: Akopyan A. V., Mnatsakanyan R. A., Eseva E. A., Journal of ACS Omega, (2022), Davtyan D. A(H)., Polikarpova P. D., Lukashov M. O., Levin I. S., Cherednichenko K. A., Anisimov A. V., Terzyan A. T., Aghoyan A. M., Karakhanov E. A.
[ 2022 ] Catalysts Based on Molybdenum Carbide Modied with Nickel and Alumina in Hydrogenation of Hydrocarbons and Hydrodesulfurization. 
Reference: Akopyan A. V., Polikarpova P. D., Karakhanov E. A. Theoretical Foundations of Chemical Engineering Anisimov A. V., Davtyan D.A., Aghoyan A.M., Mnatsakanyan R.A.
[ 2022 ] New Type of Catalyst for Ecient Aerobic Oxidative Desulfurization Based On Tungsten Carbide Synthesized by the Microwave Method. 
Reference: Akopyan A. V., Mnatsakanyan R. A., Eseva E. A., Davtyan D. A(H)., Journal of ACS Omega Polikarpova P. D., Lukashov M. O., Levin I. S., Cherednichenko K. A., Anisimov A. V., Terzyan A. T., Agoyan A. M., Karakhanov E. A.
[ 2021 ] Superhard B4C-ReB2 composite by SPS of microwave synthesized nanopowders. 
Reference: Mnatsakanyan R.,Davtyan D.,Minasyan T.,Aydinyan S.,Hussainovab I. Materials Letters, 285, (2021), 129163 
[ 2020 ] Hydrogenation of Alkenes on Molybdenum and Tungsten Carbides. 
Reference: Akopyan A. V., Polikarpova P. D., Forofontova O. I. Theoretical Foundations of Chemical Engineering, 54,1045–1051 (2020), Levin I. S., Mnatsakanyan R. A., Davtyan D. A., Zurnachyan A. R., Anisimov A. V., Karakhanov E. A. 
[ 2019 ] Microwave synthesis of B4C nanopowder for subsequent spark plasma sintering. 
Reference: Davtyan D., Mnatsakanyan R., Le Liu, Aydinyan S., Hussainova I., Journal of Materials Research and Technology, 8/6, (2019), 5823-5832 
[ 2019 ] The catalytic properties of supported Mo2C synthesized by microwave irradiation in hydrazine hydrate decomposition reaction. 
Reference: Aghoyan A.M., Davtyan D. H., Mnatsakanyan R. A. Chemical Journal of Armenia, LXXII, 72 (4), (2019), 419-426. 
[ 2018 ] Microwave-assisted preparation and characterization of nanoscale rhenium diboride.
Reference: Mnatsakanyan R., Davtyan D., Zurnachyan A., Kharatyan S., Karakhanov E., Akopyan A., Manukyan K. Ceramics International 44 (2018) 22339–22344
[ 2018 ] Synthesis of manganese diboride by microwave assited method. 
Reference: Davtyan D.H. Chemical Jornal of Armenia LXXI, 1-2 pp39- 41(2018) 
[ 2015 ] Petn (PentaerititolTetranitrat) as Explosive and Medical Product, Development of Gas Chromatographic Method for Determination of Trace amounts Petn.Application of Modern Scientic methods and technologies in expertise sphere. 
Reference: D. H. Davtyan, L.A.Melikyan, H.V. Topchyan, National Bureau of Expertises NAS, RA pp.412-416 
[ 2013 ] Ammonium paratungstate reduction by combined Mg-Zn reducers in combustion mode.
Reference: S.V. Aydinyan, D.H. Davtyan, Kh.V. Manukyan, S.L. Kharatyan XII International Symposium on Self- Propagating High-Temperature Synthesis, pp. 98-99, 21-24 October 2013, South Padre Island, TX, USA. 
[ 2011 ] Direct Reduction of Ammonium Molybdate to Elemental Molybdenum by Combustion Reaction. 
Reference: Manukyan Kh.V., Davtyan D.H., Bossert J., Kharatyan S.L. Chemical Engineering Journal pp. 925-930 
[ 2010 ]  Reduction of MoO3 by Zn: Reducermigration phenomena. 
Reference: Davtyan D., Manukyan Kh., Mnatsakanyan R., Kharatyan S., The International Journal of Refractory Metals and Hard Materials pp. 601-604 
[ 2009 ] Effect of Mg addition on zincathermic reduction of molybdenum oxide.
Reference: Davtyan D.H., ManukyanKh.V., S.L. Kharatyan X International Symposium on SHS, Tsakhkadzor, 6-11 July, pp.145-146, Armenia. 
[ 2008 ] Molybdenum oxide reduction using metallic zinc as a reducer. 
Reference: Davtyan D.H., ManukyanKh.V., S.L. Kharatyan Current Problems of Chemical Physics, 21-24 October, pp.136-137, Yerevan [ 2006 ] “Processing of metal sulphides under the combustion mode” Reference: Aghoyan A.M., Davtyan D.H., ManukyanKh.V. S.L. Kharatyan, International Conference “Nonisothermal Phenomena and Processes”, Book of Abstracts p.121