M
Mihail Ionescu
Researcher at Australian Nuclear Science and Technology Organisation
Publications - 184
Citations - 3509
Mihail Ionescu is an academic researcher from Australian Nuclear Science and Technology Organisation. The author has contributed to research in topics: Polyurethane & Thin film. The author has an hindex of 30, co-authored 178 publications receiving 2908 citations. Previous affiliations of Mihail Ionescu include University College West & University of Bucharest.
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Journal ArticleDOI
Olivine-type cathode for rechargeable batteries: Role of chelating agents
Sathiyaraj Kandhasamy,Pritam Singh,Stephen Thurgate,Mihail Ionescu,Dominique R. T. Appadoo,Manickam Minakshi +5 more
TL;DR: In this paper, a range of chelating agents like a weak organic acid (citric acid), emulsifier (triethanolamine -TEA), and non-ionic surfactant (polyvinylpyrrolidone -PVP) were used in sol-gel wet chemical synthesis of olivine powders.
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Direct Measurement of the Intrinsic Sharpness of Magnetic Interfaces Formed by Chemical Disorder Using a He+ Beam.
Grace L. Causer,Grace L. Causer,David L Cortie,Hanliang Zhu,Mihail Ionescu,Gary Mankey,Xiaolin Wang,Frank Klose,Frank Klose +8 more
TL;DR: The fundamental sharpness of a magnetic interface formed by nanomachining FePt3 films using He+ irradiation is investigated and the mechanism for the ion-beam-induced magnetic transition is elucidated and shown to be caused by an intermixing of Fe and Pt atoms in antisite defects above a threshold density.
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A comparative study of X-ray shielding capability in ion-implanted acrylic and glass
TL;DR: In this article, the effect of implanted ions on the X-ray attenuation ability was studied using a conventional laboratory Xray machine with Xray tube voltages ranging from 40 to 100 kV at constant exposure 10 mAs.
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Primary Hydroxyl Content of Soybean Polyols
TL;DR: In this article, a simple and convenient kinetic method for determining the primary hydroxyl content in soybean polyols was presented, based on the difference in reactivity of primary and secondary polyols with phenyl isocyanate (PI).
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Defect Chemistry and Defect Engineering of TiO2‐Based Semiconductors for Solar Energy Conversion
Janusz Nowotny,Mohammad A. Alim,Tadeusz Bak,Mohammad Asri Idris,Mihail Ionescu,Kathryn Prince,Mohd Zainizan Sahdan,Kamaruzzaman Sopian,Mohd Asri Mat Teridi,Wolfgang M. Sigmund +9 more
TL;DR: In this article, defect chemistry of TiO2 and its solid solutions as well as defect-related properties associated with solar-to-chemical energy conversion, such as Fermi level, bandgap, charge transport and surface active sites, are discussed in terms of defect reactions and the related charge compensation.