Curriculum Vitae Alexey M. Glushenkov Visiting Researcher, A.J. Drexel Nanomaterials Institute, Drexel University, USA; Senior Research Fellow, Deakin University, Australia; Technology Fellow, Melbourne Centre for Nanofabrication, Australia. E-mail: alexey.glushenkov@deakin.edu.au; Alexey.Glushenkov@drexel.edu 1. Research Interests These include various methods for synthesis of nanomaterials, characterisation of materials (in particular, by transmission electron microscopy and electron energy loss spectroscopy) and their applications in the area of energy storage (lithium- and sodium-ion batteries, electrochemical supercapacitors). 2. Education: PhD (Physics): Master of Physics (in Chemical Physics): Bachelor of Physics: 2005 2009 (Research School of Physical Sciences and Engineering, the Australian National University, Australia) 2001 2003 (Department of Chemical and Biological Physics, Novosibirsk State University, Russian Federation) 1997 2001 (Faculty of Physics, Novosibirsk State University, Russian Federation) 3. Relevant employment history: January 2015 present time January 2014 present time Senior Research Fellow (Institute for Frontier Materials, Deakin University, Australia) Technology Fellow (Melbourne Centre for Nanofabrication, Australia) March 2009 December 2014 Research Fellow (Institute for Frontier Materials, Deakin University, Australia).
October 2008 March 2009: Postdoctoral Fellow (Department of Electronic Materials Engineering, Research School of Physics and Engineering, the Australian National University, Australia). July 2003 December 2004: Junior Research Scientist (Boreskov Institute of Catalysis, Novosibirsk, Russian Federation) 4. Additional current professional involvement: January 2014 present: EELS/EFTEM specialist at Electron Microscope Facility at Deakin University (support of energy loss techniques on TEM) 5. Competitive research funding Australian Research Council 1. ARC Discovery grant DP130102311 (2013-2015), Y. Chen, A. Glushenkov, Y. Gogotsi, Nanoporous nanorods with improved electrochemical properties $330,000. 2. ARC Linkage Infrastructure, Equipment and Facilities grant LE140100085 (2014), A.P. Neild, M. Majumder, T. Alan, J.M. Redoute, W. Cheng, S.R. Gray, M. Duke, T.H. Lai, A. Kouzani, A. Glushenkov, L. Kong, X.J. Dai, Micro/nanofluidic characterisation facility, $300,000. 3. ARC Linkage Infrastructure, Equipment and Facilities grant LE100100195 (2010), Y. Chen, M. Barnett, P. Hodgson, X. Wang, T. Tsuzuki, C. Wen, A. Glushenkov, L. Kong, C. Sorrell, Y. Zhang, V. Chen, D. Phelan, K. Walder, G. Peleckis, S. Moulton, J. Beynon, X. Wang, D. Cahill, P. Cizek, N. Barnett, N. Stanford, Q. Guo, R. O Donnell, Field-emission gun transmission electron microscope for the research in nanomaterials, metal alloys and biological sciences $1,000,000. Australian Academy of Science 4. Research Visits to Japan 2015, A. Glushenkov, Sodium-ion batteries: electrode development and application of in-situ transmission electron microscopy, $5,300. 5. France Australia Science and Technology Collaboration Early Career Research Fellowship 2013, A. Glushenkov, Developing electrode materials for energy storage systems, $6,600. Australia Awards (Department of Education) 6. Australia Awards Endeavour Research Fellowship 2014, A. Glushenkov, $23,500. Melbourne Centre for Nanofabrication 7. MCN Technology Fellowship 2014, A. Glushenkov, Preparation and modification of advanced electrode materials for energy storage by atomic layer deposition, $100,000 125,000 (in the form of equipment access and usage costs), continuing into 2015.
Deakin University internal 8. Internal grant of Institute for Frontier Materials (Deakin University) 2013, A. Glushenkov, L. O Dell, Md M. Rahman, T. Tao, D. Gunzelmann, K. Romanenko, Combining the power of advanced TEM and NMR to reveal lithium and sodium storage mechanisms in battery electrodes, $20,000. 9. Deakin University Central Research Grant Scheme 2013, A. Glushenkov, M.M. Rahman, Nanostructured electrode materials for sodium-ion batteries, $22,000 10. Deakin University Central Research Grant Scheme 2012, A. Glushenkov, Thin film microelectrodes for electrochemical supercapacitors, $18,000 11. Deakin University Research Equipment Support Scheme 2011, X.G. Wang, X.J. Dai, T. Tsuzuki, P. Hodgson, A. Kouzani, Y. Chen, B. Fox, P. Francis, M. Forsyth, C. Hurren, A. Kaynak, A. Glushenkov, L.H. Li, A. Kafi, E. Nuhiji, L. Sun, M. She, L. Kong, Advanced surface functionalization and fabrication facility $110,000. 12. Deakin University Research Equipment Support Scheme 2011, B. Fox, X.G. Wang, A. Kafi, M. Forsyth, R. Horn, X.J. Dai, L. Henderson, T. Tsuzuki, X. Liu, R. Rajkhowa, K. Magniez, A. Glushenkov, Surface energy analyser (SEA) for characterization of fibres/polymers/composites/powders $90,000. 13. Deakin University Central Research Grant Scheme 2010, A. Glushenkov, Porous Nanocrystalline Nitrides for Electrochemical Energy Storage $10,000. 14. Deakin University Research Equipment Support Scheme 2010, T. Tsuzuki, Q. Guo, L. Kong, A. Kouzani, T. Lin. M.F. She, J. Dai, T. Anderson, P. Francis, A. Glushenkov, Y. Zhao, F. Ochanda, J. Fang, (2010) Advanced facility for the characterization of photovoltaic cells $118,000. 15. Deakin International Development grant 2014, Y. Chen, M. Forsyth, A. Glushenkov, P. Howlett, Deakin-CISRI Joint Research Centre for Li-ion Batteries, $12,000. 6. Evidence of research impact, prizes and awards: International conference s organising committee: Dr Glushenkov was a member of the organising committee of International Battery Association (IBA) 2014 Conference, held in Brisbane on 3-7 March 2014. 7 Invited oral presentations at international conferences: 1. 5th Annual International Electromaterials Science Symposium held jointly with the 4th Australasian Symposium on Ionic Liquids at Monash University, Faculty of Engineering, Clayton Campus, Melbourne, 17-19 February 2010. 2. 7th Annual International Electromaterials Science Symposium, Deakin University, Waterfront campus, February 15-17, 2012. 3. 10th Pacific Rim Conference on Ceramic and Glass Technology, San Diego, USA, June 2-7, 2013. 4. 3CG 2013 Collaborative Conference on Crystal Growth, Cancun, Mexico, June 10-13, 2013. 5. International Battery Association (IBA) 2014 Conference, Brisbane, March 3-7, 2014. 6. Energy Materials Nanotechnology (EMN) Summer 2014 Conference, Cancun, Mexico, June 9-12, 2014.
7. IUMRS-ICYRAM 2012, International Union of Materials Research Societies - International Conference of Young Researchers on Advanced Materials, 24-29 October 2014, Haikou, China. Journal cover: An article Boron nitride nanotube films grown from boron ink painting by L.H. Li, Y. Chen and Alexey M. Glushenkov has been highlighted on the cover of Journal of Materials Chemistry (2010, last impact factor 6.626). Journal cover: An article Bimetallic molybdenum tungsten oxynitride: structure and electrochemical properties by A.M. Glushenkov et al. has been highlighted on the inside front cover of Journal of Materials Chemistry A (2013). Most downloaded article: A first-author journal article entitled `Efficient production of ZnO nanowires by a ball milling and annealing method` (Nanotechnology 18 (2007) 175604) has been downloaded 250 times in the first month, which is a very good achievement (across all IOP (Institute of Physics, UK) journals only 10% of articles were accessed over 250 times that quarter). Hot article: A recently published co-authored article Large scale mechanical peeling of boron nitride nanosheets by low-energy ball milling has been promoted as a hot article by Journal of Materials Chemistry (impact factor 6.626) and highlighted online in the Journal of Materials Chemistry Blog. Best poster award at IUMRS-ICYRAM 2012, International Union of Materials Research Societies - International Conference of Young Researchers on Advanced Materials, 1-6 July 2012, Matrix Building, Biopolis Shared Facilities, Singapore. Prize for the best oral student presentation at the 2d ARC Centre for Functional Nanomaterials Annual Conference Advances in Functional Nanomaterials, 30 Nov - 2 Dec 2005, Maroochydore, Australia. Invitation to participate in the book project entitled Nanotechnology in Australia: Showcase of Early Career Research. 12 early career researchers (ECRs) have been selected by Australian Research Council Nanotechnology Network to contribute a book chapter into a nanotechnologyrelated book which has been published by Pan Scientific. The publication of the book follows a 9-day workshop held at Macquarie University (8-16 February 2010). 7. Publications Book chapters 1. A.M. Glushenkov, M.F. Hassan, D. Hulicova-Jurcakova, Y. Chen, Nanorods of vanadium compounds: synthesis, characterization and application in electrochemical energy storage, in Nanotechnology in Australia: Showcase of Early Career Research, edited by D.M. Kane, A. Micolich and J. Rabeau, Pan Scientific, Singapore, edited by D.M. Kane, A. Micolich and J. Rabeau, Pan Scientific, Singapore, 2011, pp. 151-188.
Journal publications *=Alexey Glushenkov is the lead (corresponding) author 2. T. Ramireddy, M.M. Rahman, N. Sharma, A.M. Glushenkov, Y. Chen, Carbon coated Na7Fe7(PO4)6F3: a novel intercalation cathode for sodium-ion batteries, Journal of Power Sources 271 (2014) 497-503. 3. T. Tao, M.M. Rahman, T. Ramireddy, J. Sunarso, Y. Chen, A.M. Glushenkov*, Preparation of composite electrodes with carbon nanotubes for lithium-ion batteries by low-energy ball milling, RSC Advances 4 (2014) 36649 36655. 4. O. Kartachova, Y. Chen, R. Jones, Y.H. Chen, H.Z. Zhang, A.M. Glushenkov*, Evolution of the electrochemical capacitance of transition metal oxynitrides with time: the effect of ageing and passivation, Journal of Materials Chemistry A 2 (2014) 12940-12951. 5. M.M. Rahman, A.M. Glushenkov, T. Ramireddy, Y. Chen, Electrochemical investigation of sodium reactivity with nanostructured Co3O4 for sodium-ion batteries, Chemical Communications 50 (2014) 5057-5060. 6. T. Ramireddy, M.M Rahman, T. Xing, Y. Chen, A.M. Glushenkov*, Stable anode performance of an Sb-carbon nanocomposite in lithium-ion batteries and the effect of the ball milling mode in the course of its preparation, Journal of Materials Chemistry A 2 (2014) 4282-4291. 7. M.M. Rahman, A.M. Glushenkov, Z. Chen, X.J. Dai, T. Ramireddy, Y. Chen, Clusters of α- LiFeO 2 nanoparticles incorporated into multi-walled carbon nanotubes: a lithium-ion battery cathode with enhanced lithium storage properties, Physical Chemistry Chemical Physics 15 (2013), 20371. 8. W.R. Yang, Z.Q. Weng, H.B. Wang, J. Vongsvivut, Q.Q. Li; A.M. Glushenkov, Y. Chen, C. Barrow, J. He, "Self-assembly of core-satellite gold nanoparticles for colorimetric detection of copper ions", Analytica Chimica Acta 803 (2013) 128-134. 9. T. Tao, A.M. Glushenkov*, M.M. Rahman, Y. Chen, Electrochemical reactivity of ilmenite FeTiO 3, its nanostructures and oxide-carbon nanocomposites with lithium, Electrochimica Acta 108 (2013) 127-134. 10. T. Xing, J. Sunarso, W. Yang, Y.B. Yin, A.M. Glushenkov, L. H. Li, P.C. Howlett, Y. Chen, Ball milling: a green mechanochemical approach for synthesis of nitrogen doped carbon nanoparticles, Nanoscale 5 (2013) 7970-7976. 11. O. Kartachova, A.M. Glushenkov*, Y.H. Chen, H.Z. Zhang, Y. Chen, Bimetallic molybdenum tungsten oxynitride: structure and electrochemical properties, Journal of Materials Chemistry A 1 (2013) 7889-7895. (Inside front cover) 12. M.M. Rahman, A.M. Glushenkov, T. Ramireddy, T. Tao, Y. Chen, Enhanced lithium storage in Fe 2O 3-SnO 2-C nanocomposite with a breathable structure, Nanoscale 5 (2013) 4910-4916.
13. C. Pozo-Gonzalo, O. Kartachova, A.A.J. Torriero, P.C. Howlett, A.M. Glushenkov, D.M. Fabijanic, Y. Chen, S. Poissonnet, M. Forsyth, Nanoporous transition metal oxynitrides as catalysts for the oxygen reduction reaction, Electrochimica Acta 103 (2013) 151-160. 14. V. Khranovskyy, A.M. Glushenkov, Y. Chen, A. Khalid, H.Z. Zhang, L. Hultman, B. Monemar, R. Yakimova, Crystal phase engineered quantum wells in ZnO nanowires, Nanotechnology 24 (2013) 215202 (6pp). 15. J. Sunarso, A.M. Glushenkov, A.A.J. Torriero, P.C. Howlett, Y. Chen, D.R. MacFarlane, M. Forsyth, Bi-functional water/oxygen electrocatalyst based on PdO/RuO 2 composites, Journal of the Electrochemical Society 160 (2013) H74-H79. 16. T. Tao, Y. Chen, D. Zhou, H.Z. Zhang, S.L. Liu, R. Amal, N. Sharma, A.M. Glushenkov*, Expanding the applications of the ilmenite mineral to the preparation of nanostructures: TiO 2 nanorods and their photocatalytic properties in the degradation of oxalic acid, Chemistry a European Journal 19 (2013) 1091-1096. 17. O. Kartachova, A.M. Glushenkov*, Y.H. Chen, H.Z. Zhang, X.J. Dai, Y. Chen, Electrochemical capacitance of mesoporous tungsten oxynitride in aqueous electrolytes, Journal of Power Sources 220 (2012) 298-305. 18. T. Tao, A.M. Glushenkov*, H.W. Liu, Z.W. Liu, X.J. Dai, H. Chen, S.P. Ringer, Y. Chen, Ilmenite FeTiO 3 nanoflowers and their pseudocapacitance, The Journal of Physical Chemistry C (2011), 17297-17302. 19. L.H. Li, Y. Chen, G. Behan, H.Z. Zhang, M. Petravic, A.M. Glushenkov, Large scale mechanical peeling of boron nitride nanosheets by low-energy ball milling, Journal of Materials Chemistry 21 (2011) 11862-11866. 20. T. Tao, A.M. Glushenkov*, C.F. Zhang, H.Z. Zhang, D. Zhou, Z.P. Guo, H.K. Liu, Q. Chen, H.P. Hu, Y. Chen, MoO 3 nanoparticles dispersed uniformly in carbon matrix: a high capacity composite anode for Li-ion batteries, Journal of Materials Chemistry 21 (2011) 9350-9355. 21. T. Tao, A.M. Glushenkov*, Q.Y. Chen, H.P. Hu, D. Zhou, H.Z. Zhang, M. Boese, S. Liu, R. Amal, Y. Chen, Porous TiO 2 with a controllable bimodal pore size distribution from natural ilmenite, CrystEngComm 13 (2011) 1322-1327. 22. L.H. Li, Y. Chen, M.Y. Lin, A.M. Glushenkov, B.M. Cheng, J. Yu, Single deep ultraviolet light emission from boron nitride nanotube film, Applied Physics Letters 97 (2010) 141104. 23. L.H. Li, Y. Chen, A.M. Glushenkov, Boron nitride nanotube films grown from boron ink painting, Journal of Materials Chemistry 20 (2010) 9679-9683. (front cover) 24. A.M. Glushenkov*, M.F. Hassan, V. I. Stukachev, Z.P. Guo, H.K. Liu, G.G. Kuvshinov, Y. Chen, Growth of V 2O 5 nanorods from ball milled powders and their performance in cathodes and anodes of lithium-ion batteries, Journal of Solid State Electrochemistry 14 (2010) 1841-1846. 25. T. Tao, A.M. Glushenkov*, H.P. Hu, Q.Y. Chen, Y. Chen, Ball milled SnO 2: a modified vapor source for growing nanostructures, Journal of Alloys and Compounds 504 (2010), S315-S318.
26. A. M. Glushenkov*, D. Hulicova-Jurcakova, D. Llewellyn, G.Q. Lu, Y. Chen, Structure and capacitive properties of porous nanocrystalline VN produced by NH3 reduction of V 2O 5, Chemistry of Materials 22 (2010) 914-921. (special issue; the research was highlighted in NanoMatters, a research newsletter of the ARC Centre of Excellence for Functional Nanomaterials) 27. V.V. Shinkarev, A.M. Glushenkov, D.G. Kuvshinov, G.G. Kuvshinov, Nanofibrous carbon with herringbone structure as an effective catalyst of the H 2S selective oxidation, Carbon 48 (2010) 2004-2012. 28. T. Tao, A.M. Glushenkov, Q.Y. Chen, Y. Chen, Air-assisted Growth of Tin Dioxide Nanoribbons, Journal of Nanoscience and Nanotechnology 10 (2010) 5015-5019. 29. L.H. Li, Y. Chen, A.M. Glushenkov, Synthesis of boron nitride nanotubes by boron ink annealing, Nanotechnology 21 (2010) 105601 (5pp). 30. J. Yu, Y. Chen, A.M. Glushenkov, Titanium oxide nanorods extracted from ilmenite sands, Crystal Growth & Design 9 (2009) 1240-1244. 31. V.V. Shinkarev, A.M. Glushenkov, D.G. Kuvshinov, G.G. Kuvshinov, New effective catalysts based on mesoporous nanofibrous carbon for selective oxidation of hydrogen sulphide, Applied Catalysis B: Environmental 85 (2009) 180-191. 32. A.M. Glushenkov*, V.I. Stukachev, M.F. Hassan, G.G. Kuvshinov, H.K. Liu, Y. Chen, A novel approach for real mass transformation from V 2O 5 particles to nanorods, Crystal Growth & Design 8 (2008) 3661-3665. 33. A.M. Glushenkov*, H.Z. Zhang and Y. Chen, Reactive ball milling to produce nanocrystalline ZnO, Materials Letters 62 (2008) 4047-4049. 34. A.M. Glushenkov, H.Z. Zhang, J. Zou, G. Q. (Max) Lu, and Y. Chen, Unusual corrugated nanowires of zinc oxide, Journal of Crystal Growth 310 (2008) 3139-3143. 35. A.M. Glushenkov, H.Z. Zhang, Y. Chen, Anomalous evaporation behavior of ZnO powder milled mechanically under high-energy conditions, Materials Letters 62 (2008) 715 718. 36. A.M. Glushenkov, H.Z. Zhang, J. Zou, G.Q. (Max) Lu, Y. Chen, Efficient production of ZnO nanowires by a ball milling and annealing method, Nanotechnology 18 (2007) 175604 (6pp). 37. A. Glushenkov, Y. Chen, Synthesis of ZnO nanowires using ball-milling and annealing method, Materials Forum 30 (2006) 1-6. 38. G.G. Kuvshinov, V.V. Shinkarev, A.M. Glushenkov, M.N. Boyko, D.G. Kuvshinov, Catalytic properties of nanofibrous carbon in selective oxidation of hydrogen sulphide, China Particuology 4 (2006) 70-72. 39. G.G. Kuvshinov, D.G. Kuvshinov, A.M. Glushenkov, The influence of inert impurities on the catalyst lifetime and properties of nanofibrous carbon produced by utilization of diluted hydrocarbon gases, Chemistry for Sustainable Development 11 (2003) 135-140.