Michael Ojovan

• Assistant professor, School of Chemical, Materials and Biological Engineering, University of Sheffield, UK. since 2002.{{Cite web |date=2024-08-08 |title=Ojovan, Michael J, Dr |url=https://www.sheffield.ac.uk/cmbe/people/visiting-and-honorary-staff/michael-j-ojovan |access-date=2025-02-06 |website=www.sheffield.ac.uk |language=en}}
• Professor, Department of Materials, Imperial College London, London, UK, 2011-2024 {{Cite web |url=https://profiles.imperial.ac.uk/m.ojovan |access-date=2025-02-01 |website=profiles.imperial.ac.uk}}
• Guest professor, Wuhan University of Technology, China, since 2023
• Visiting professor, Tohoku University Advanced Institute for Materials Research (2024)
• Nuclear engineer, Department of Nuclear Energy, International Atomic Energy Agency, Vienna, Austria. 2011- 2018
• Leading scientist, Radiochemistry Department, Lomonosov Moscow State University, Russia,{{Cite web |title=Ожован Михаил Иванович — профиль {{!}} ИСТИНА |url=https://istina.msu.ru/profile/Ojovan/ |access-date=2025-02-01 |website=istina.msu.ru}}
• Leading scientist at IGEM RAN, Institute of Geology of Ore Deposits, Petrography, Mineralogy and Geochemistry of Russian Academy of Sciences

• Founder and scientific secretary of International Network on predisposal management of radioactive waste – the International Predisposal Network: IPN PUBLIC 2016 - 2018.{{Cite web |title=Home |url=https://nucleus.iaea.org/sites/connect/IPNPublic/SitePages/Home.aspx |access-date=2025-02-01 |website=nucleus.iaea.org}}
• Scientific Secretary of International Project on Irradiated Graphite Processing GRAPA 2015 - 2018.{{Cite journal |last1=Wickham |first1=Anthony |last2=Steinmetz |first2=Hans-Jürgen |last3=O'Sullivan |first3=Patrick |last4=Ojovan |first4=Michael I. |date=May 2017 |title=Updating irradiated graphite disposal: Project 'GRAPA' and the international decommissioning network |url=https://pubmed.ncbi.nlm.nih.gov/28167371/ |journal=Journal of Environmental Radioactivity |volume=171 |pages=34–40 |doi=10.1016/j.jenvrad.2017.01.022 |issn=1879-1700 |pmid=28167371|bibcode=2017JEnvR.171...34W |hdl=10044/1/50020 |hdl-access=free }}
• Processing of Irradiated Graphite to Meet Acceptance Criteria for Waste Disposal - IAEA {{Cite report |url=https://www.iaea.org/publications/10978/processing-of-irradiated-graphite-to-meet-acceptance-criteria-for-waste-disposal |title=Processing of Irradiated Graphite to Meet Acceptance Criteria for Waste Disposal |last=Agency |first=International Atomic Energy |date=2016 |publisher=International Atomic Energy Agency |pages=1–148 |language=en}}
• Scientific Secretary of IAEA Benchmarking System for Operational Waste from WWER Reactors BMS since 2014- 2018.{{Cite report |url=https://www.iaea.org/publications/12221/use-of-the-benchmarking-system-for-operational-waste-from-wwer-reactors |title=Use of the Benchmarking System for Operational Waste from WWER Reactors |last=Agency |first=International Atomic Energy |date=2017 |publisher=International Atomic Energy Agency |pages=1–88 |language=en}}
• Director of:
• Joint ICTP-IAEA Radioactive waste management – solutions for countries without nuclear power programme (2015);{{Cite web |last=”Giorgio |title=Joint ICTP-IAEA Workshop on Radioactive Waste Management - Solutions for Countries without Nuclear Power Programme {{!}} (smr 2743) (02-6 November 2015) |url=https://indico.ictp.it/event/a14290/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• [https://indico.ictp.it/event/7633/overview Joint ICTP-IAEA Radiation effects in nuclear waste forms and their consequences for storage and disposal (2016)];
• [https://indico.ictp.it/event/8002/ Joint ICTP-IAEA Fundamentals of Vitrification and Vitreous Materials for Nuclear Waste Immobilization (2017)],
• Joint ICTP-IAEA International School on Nuclear Waste Actinide Immobilization (2018),  {{Cite web |last=”Giorgio |title=Joint ICTP-IAEA International School on Nuclear Waste Actinide Immobilization {{!}} (smr 3237) (10-14 September 2018) |url=https://indico.ictp.it/event/8333/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• Joint ICTP-IAEA International School on Nuclear Waste Vitrification (2019), {{Cite web |last=”Giorgio |title=Joint ICTP-IAEA International School on Nuclear Waste Vitrification {{!}} (smr 3325) (23-27 September 2019) |url=https://indico.ictp.it/event/8772/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• International School on Nuclear Waste Cementation (2020),{{Cite web |last=”Giorgio |title=Joint ICTP-IAEA International School on Radioactive Waste Cementation {{!}} (smr 3484) (16 October 2020 - 25 November 2020) |url=https://indico.ictp.it/event/9129/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• Joint ICTP-IAEA International School on Radioactive Waste Package Performance Testing (2021),{{Cite web |last=”Giorgio |title=Joint ICTP-IAEA International School on Radioactive Waste Package Performance Testing {{!}} (smr 3636) (02-22 November 2021) |url=https://indico.ictp.it/event/9656/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• Joint ICTP-IAEA International School on the Physical Basis for Radionuclide Migration (Storage, disposal and contaminated sites) (2022).{{Cite web |last=”Giorgio |title=Joint ICTP-IAEA International School on the Physical Basis for Radionuclide Migration (Storage, disposal and contaminated sites) {{!}} (smr 3751) (07-11 November 2022) |url=https://indico.ictp.it/event/9841/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• Joint ICTP-IAEA Workshop on Degradation Modelling of Disposed Radioactive Wasteforms (2023).{{Cite web |last=”Giorgio |title=Joint ICTP-IAEA Workshop on Degradation Modelling of Disposed Radioactive Wasteforms {{!}} (smr 3875) (18-22 September 2023) |url=https://indico.ictp.it/event/10209/ |access-date=2025-02-01 |website=Indico - Conferences and Events}}
• Joint ICTP-IAEA Workshop on Modelling for Encapsulated Intermediate Level Waste (ILW) and High Level Waste (HLW) During Long-Term Storage (2024).{{Cite web |last=”Giorgio |title=Joint ICTP-IAEA Workshop on Modelling for Encapsulated Intermediate Level Waste (ILW) and High Level Waste (HLW) During Long-Term Storage {{!}} (smr 3920) (26 February 2024 - 1 March 2024) |url=https://indico.ictp.it/event/10458 |access-date=2025-02-01 |website=Indico - Conferences and Events}}  
• Technical Expert of International Atomic Energy Agency, Vienna. Since 1993.

• Taking a Closer Look at Vitrification: How the IAEA Helps Countries Utilise Advanced Immobilisation Technologies - The IAEA supports Member States that embark on vitrification by providing best practices, expertise and solutions drawn from the Agency’s accumulated experience. {{Cite web |date=2017-03-24 |title=Taking a Closer Look at Vitrification: How the IAEA Helps Countries Utilise Advanced Immobilisation Technologies |url=https://www.iaea.org/newscenter/news/taking-a-closer-look-at-vitrification-how-the-iaea-helps-countries-utilise-advanced-immobilisation-technologies |access-date=2025-02-10 |website=www.iaea.org |language=en}}
• IAEA Helps Member States Do More Cost Effective Management of Decommissioning Wastes.{{Cite web |date=2017-11-08 |title=IAEA Helps Member States Do More Cost Effective Management of Decommissioning Waste |url=https://www.iaea.org/newscenter/news/iaea-helps-member-states-do-more-cost-effective-management-of-decommissioning-waste |access-date=2025-02-10 |website=www.iaea.org |language=en}}

• Discovery of Fractal structure of emulsions (J. Exp. Theor. Phys., 77 (1993) 939); Fractal structure of clay soil pores (At. Energy, 74 (1993) 256);
• Developed of methodology to reveal structural changes in amorphous materials at glass-liquid transition. J. Phys. Chem. B, 124 (15), 3186-3194 (2020);
• Discovery of Fluctuations of glass leaching rates in field tests of nuclear glassy wasteforms (Mat. Res. Soc. Symp. Proc., 412 (1996) 265).
• Universal equation of viscosity of melts and glasses (J. Phys.: Cond. Matter 19 (2007) 415107); Equation for glass transition temperature (J. Phys.: Cond. Matter 18 (2006) 11507); Thermal expansion coefficient near the glass-liquid transition (J. Exp. Theor. Phys. 103 (2006) 819);
• Discovery and explanation of fluidization of glasses under e-beam irradiation (J. Nucl. Mater., 396 (2010) 264-271);
• Percolation thresholds in binary and poly-dispersed systems (J. Exp. Theor. Phys. 75 (1992) 696);
• Conditions of formation, main parameters and decay probability of Rydberg matter (J. Exp.Theor. Phys. 75 (1992) 602).
• Surface self-diffusion instability of charged solids (Phys. Chem. Mech. Surf. 3 (1985) 3529);
• Ion exchange rate of glasses in aqueous systems and its pH dependence (J. Nucl. Mater. 358 (2006) 57);
• Technology of Metal matrix immobilisation for sealed radioactive sources. Used in Russia, Belarus, Ukraine. At. Energ., 74 (1993) 531; IAEA-NW-T-1.8 (2014).
• Development of vitrification technology using glass composite materials. Used in Russia and France. Radiochim. Acta, 34 (1992) 97.
• Thermochemical decontamination with powder metal fuels. Used in Russia. At. Energ., 84 (1998) 519.
• Self sustaining vitrification with powder metal fuels. Used in Russia. Glass Technology, 44 (2003) 218.
• Field incineration of biological waste with powder metal fuels. Used in Russia, Czech Republic, Austria. J. Process Mech. Eng., 218E (2004) 261.
• Condensed Rydberg matter - Can there be liquids or solids consisting solely of excited atoms? Paradoxically, matter of this kind has been produced. Although metastable, this state is macroscopically longlived. [https://priroda.ras.ru/pdf/2001-01.pdf]

Fellow Nuclear Society Russia. Member Russian Academy Natural Science, MaterialRsch.

He is Chief Editor of journal [https://onlinelibrary.wiley.com/journal/4262 “Science and Technology of Nuclear Installations”]. Michael has published 16 monographs including the “Handbook of Advanced Radioactive Waste Conditioning Technologies” and three editions of “An Introduction to Nuclear Waste Immobilisation” by Elsevier.

Prof. M. Ojovan has founded and led the IAEA International Predisposal Network (IPN) and the IAEA International Project on Irradiated Graphite Processing (GRAPA).

Michael is known for the connectivity-percolation theory (CPT) of glass transition, Douglas-Doremus-Ojovan (DDO) model of viscosity of glasses and melts, theoretical bases of condensed Rydberg matter (RM), metallic and glass-composite materials (GCM) for nuclear waste immobilisation, and self-sinking capsules to investigate Earth’ deep interior.

• Michael I Ojovan, Neil C. Hyatt. Materials for Nuclear waste immobilization {{Cite book |url=https://www.mdpi.com/books/reprint/1934-materials-for-nuclear-waste-immobilization |title=Materials for Nuclear Waste Immobilization |date=2020-01-09 |publisher=MDPI - Multidisciplinary Digital Publishing Institute |doi=10.3390/books978-3-03921-847-9 |doi-access=free |isbn=978-3-03921-846-2 |editor-last=Ojovan |editor-first=Michael I. |language=English |editor-last2=Hyatt |editor-first2=Neil C.}}
• Publication list at Google Scholar{{Cite web |title=Michael I. Ojovan |url=https://scholar.google.com/citations?user=UiZ0_ucAAAAJ&hl=ru&oi=ao |access-date=2025-02-11 |website=scholar.google.com}}

Scientific metrics [https://orcid.org/0000-0001-8928-4879 ORCID PAGE]

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Category:1955 births

Category:Living people

Category:Moldovan chemists

Category:Viscosity

Category:Radioactive waste

Category:Academics of Imperial College London

Category:Academics of the University of Sheffield

Category:Moldovan expatriates in England