and the setting up of start-up high-tech companies. He has served as Coordinator/Principal Investigator in EU-funded research projects with a total budget of USD 4.7 million, and he has been involved as Co-Principal Scientist in thirteen other funded research projects.
Dr. Nitodas is the recipient of the Morris Cohen Distinguished Award of the Corrosion Division of the Electrochemical Society. He is also a member of the American Institute of Chemical Engineers (AIChE) and the faculty advisor of the AIChE chapter at Stony Brook University. He has served as guest editor in MDPI and the Journal of Nanoscience with Advanced Technology.
Mr. Daniel Baek part of a thriving internship programme at Koehler Instrument company in Holtsville, and is a student of Chemical Engineering at Stony Brook University, Long Island, NY where Dr. Shah is the current chair of the external advisory board of directors.
References [1] Andrew, J.M. The future of lubricating grease in the electric vehicle era. TLT. 2019
[2] Xiangyu, G. Yanqiu, X. Zhengfeng C. Tribological properties and insulation effect of nanometer TiO2 and nanometer SiO2 as additives in grease. Tribol Int. 2015, 92, 454-461.
[3] Jahan, M.P. Rahman, M. Wong, Y.S. Micro-electrical discharge of machining (Micro-EDM): Process, varieties, and applications. Comprehensive Materials Processing. 2014, 11, 333-371.
[4] Charalampakos, V.P. Peppas, G.D. Pyrgioti, E.C. Bakandritsos, A.; Polykrati, A.D.l Gonos, I.F. Dielectric insulation characteristics of natural ester fluid modified by colloidal iron oxide ions and silica nanoparticles. Energies. 2019, 12, 3259.
[5] Fasehullah, M. Wang, F. Jamil, S. Huang, I. Haq, U. Han, Q. Effect of SiO2 nanoparticle’s size and doping concentration on AC breakdown behavior of insulating oil-based nanofluids. IEEE. 2021, 343-346.
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[6] Khelifa, H. Beroual, A. Vagnon, E. Effect of conducting, semi-conducting and insulating nanoparticles on AC breakdown voltage and partial discharge activity of synthetic ester: a statistical analysis. Nanomaterials. 2012, 12, 2105.
[7] Harshwardhan, H.P.; Chavan D.S.; Pise, A.T. Tribological Properties of SiO2 nanoparticles added in SN-500 base oil. IJERT. 2013, 2, 5.
[8] Alves, S.M. Barros, B.S. Trajano, M.F.; Ribeiro, K.S.B. Moura, E. Tribological behavior of vegetable oil-based lubricants with nanoparticles of oxides in boundary lubrication conditions. Tribol Int. 2013, 65, 28-36.
[9] Hsu, S.M Gates, R.S. Boundary lubricating films: formation and lubrication mechanism, Tribol Int. 2005 38, 305-312.
[10] Peng D.X. Kang, Y. Hwang R.M. Shyr, S.S. Chang Y.P. Tribological properties of diamond and SiO2 nanoparticles added in paraffin. Tribol Int. 2009, 42, 911-917.
Peter Greven GmbH & Co. KG Nadine Flügel, Product Manager Lubricants
n.fluegel@peter-greven.de
LUBE MAGAZINE NO.186 APRIL 2025
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