Biography:Elena P. Ivanova

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Elena P. Ivanova
Elena Ivanova.jpg
OccupationNanoBiotechnologist/biophysicist, academic, and author
AwardsMorrison Rogosa Award, American Society for Microbiology
Distinguished Nanoscience Research Leader Award 2015, Publishing Division of Cognizure
Australian Museum Eureka for Scientific Research
Academic background
EducationB.Sc., M.Sc., (Honors) in Biology
Ph.D., Microbiology
Dip in Molecular Evolution and Bacterial Systematics
Sc.D., Microbiology
Juris Doctor
GradDip in Legal practice
Alma materVladivostok State University
Institute of Microbiology and Virology, Kyiv, Ukraine
Pacific Institute of Bio-organic Chemistry
Melbourne Law School
Law Institute of Victoria
Academic work
InstitutionsRMIT University

Elena P. Ivanova is a nanobiotechnologist/biophysicist, academic, and author. She is a Distinguished Professor at RMIT University, Australia . She is most known for her research on biomaterials and bioengineering, focusing on biomimetics antimicrobial nanostructured surfaces.[1]

Ivanova has authored/co-authored over five books, including New Functional Biomaterials for Medicine and Healthcare, Antibacterial surfaces, and Superhydrophobic surfaces. Her research is primarily focused on design, fabrication and operation of planar micro-devices, with particular emphasis on bacterial taxonomy, biomaterials, immobilization of bio-molecules and micro-organisms in micro/nano/environments, microbial interactions with macro/micro/nano-structured surfaces, and mechano-bactericidal biomimetic nanostructured surfaces.[2]

Ivanova is a Fellow of the Australian Society for Microbiology, Life member of Bergey's International Society for Microbial Systematics (BISMiS), and is associated with several organizations, including the American Society for Microbiology,[3] the American Chemical Society, and Royal Society of Victoria.[4]

Education

Ivanova received her BSc and MSc in Biochemistry from Vladivostok State Medical University in 1979. She then completed her PhD in microbiology at Institute of Microbiology and Virology in Ukraine in 1991, with a dissertation on "The physiological activity of marine microorganisms, associated with the mussel Crenomytilus grayanus." She worked at Pacific Institute of Bio-organic Chemistry, and received her ScD in Microbiology in 1999. Followed by a Diploma in Molecular Evolution and Bacterial Systematics from the University of Antwerp, she enrolled at Pacific Institute of Bio-organic Chemistry, and received her ScD in Microbiology in 1999. She then moved to Australia, earning her JD from the University of Melbourne in 2008, and a GradDip from the Law Institute of Victoria in 2010.[1]

Career

Ivanova began her academic career as a Research Fellow of Far-Eastern Research Institute of State Hydrometeorology and Environment Preservation Committee of the USSR in 1980. She held her next appointment as a Senior Scientist in Pacific Institute of Bioorganic Chemistry (PIBOC) of the Russian Academy of Sciences (RAS) in 1985. Having served in this position for 9 years, she became Postdoctoral Research Fellow at Osaka National Research Institute, Agency of Industrial Science and Technology in 1994. In the following year, she was appointed as an Advanced Technology Researcher in Industrial Technology R&D Department at New Energy and Industrial Technology Development Organization. Between 1997 and 2001, she held concurrent appointments as Senior Scientist at PIBOC FEB RAS, and Fellow in Microbiology at the University of Maryland, Center of Marine Biotechnology. Followed by these appointments, she joined Swinburne University of Technology as a Senior Lecturer. She was promoted to associate professor of Life and Social Sciences in 2003, and became Professor of Science, Engineering and Technology in 2009. After working in this position for 9 years, she joined RMIT University as a professor in 2018, and has been working there as a Distinguished Professor since 2019.[1]

Research

Ivanova has authored over 350 articles, and 30 book chapters, and has 4 patents awarded.[5] She works in the fields of nanobiotechnology, material science, and microbiology.[6]

Nanobiotechnology

Ivanova presented the very first reported physical bactericidal activity of black silicon, which is first synthetic analogue of natural bactericidal surfaces such as insect wings, while giving a prospect for the development of a new generation of mechano-responsive, antibacterial nanomaterials.[7] She has led a research project on biomimetic mechano-bactericidal nanostructured surfaces since 2012. In her studies focused on mechanical rupture of Pseudomonas aeruginosa bacterial cells by cicada Psaltoda claripennis wings, she demonstrated that upon being incubated on cicada wings, Pseudomonas aeruginosa cells are stretched and ruptured by the nanopillar arrays present on the wing surface, resulting in bacterial cell death. Her studies further showed that cicada wings are highly effective antibacterial, as opposed to antibiofouling, surfaces.[8] In 2013, she proposed a biophysical model of the interactions between bacterial cells and cicada wing surface structures, which highlights that mechanical properties play a vital role in terms of determining bacterial resistance/sensitivity to the bactericidal nature of the wing surface.[9] One of her highly cited papers has discussed the diverse structural variations of EPS produced by bacteria of different taxonomic lineages, and highlighted a number of techniques that can be used in studies involving biofilm-specific polysaccharides.[10] With an intention to explore areas related to biodegradation of polymers, she presented an overview of the problems related to plastic pollution in the marine environment, a description of the properties, commercial manufacturing and degradability of poly(ethylene terephthalate) (PET).[11]

Ivanova discussed antifouling and bactericidal impacts of antibacterial surfaces.[12] While demonstrating the bactericidal activity of nanopatterned superhydrophobic cicada Psaltoda claripennis wing surfaces, she provided a model for the development of novel functional surfaces that have the ability to possess an increased resistance to bacterial contamination and infection.[13]

Biomaterials

Ivanova in collaboration with colleagues described the role that surface modification of biomaterial plays in the context of preventing biofilm formation and the attachment of microorganisms.[14] In her studies focused on the understanding of the basis of the mechanical antimicrobial mechanisms, she discussed the progress being made towards the fabrication of optimised, biocompatible, synthetic analogues.[15] In a more recent study, she characterized biomimetic and natural hydrophobic surfaces using in situ atomic force microscopy, highlighted that the air-water interface is heterogeneous in its structure, and confirmed the presence of short–range interfacial ordering.[16]

Awards and honors

  • 1994 - AIST Fellowship, Japan, Foreign Researcher Invitation
  • 1997 - UNESCO Biotechnology Fellowship, University of Maryland
  • 1998 - Governor of Primorye Award
  • 1999 - Morrison Rogosa Award, American Society for Microbiology
  • 2001-2002 - Russian Academy of Sciences Award “Prominent Doctor of Sciences”
  • 2008 - JSPS Fellowship, Japan
  • 2011 - Placed in the top of 5% of cited authors for journals in Chemistry, Thomson Reuters
  • 2012-2013 - Ministry of Education and Science Short-Term Fellowship, Russian Federation
  • 2015 - Distinguished Nanoscience Research Leader Award 2015, Publishing Division of Cognizure
  • 2016 - “Women of Swinburne”, Swinburne University of Technology[17]
  • 2016 - Visiting professor, Cambridge University, UK; Visiting professor, Institut Charles Sadron, CNRS, France
  • 2016 - Nano-Micro Letters (NML) Researcher Award
  • 2017 - Swinburne 25 book
  • 2017 - Australian Museum Eureka for Scientific Research[18]
  • 2019 - Distinguished Professor Medal, RMIT University [19]
  • 2020 - SAGE Athena SWAN at RMIT: Women in STEMM gallery
  • 2021 - ASEC Best Contribution Award, 2nd Int. Electronic Conference on Applied Sciences [20]
  • 2021 - Best Researcher Award, International Research Awards on Infectious Diseases
  • 2021 - Honorary Advisor, the Universal Scientific Education and Research Network (USERN) [21]

Bibliography

Books

  • Marine proteobacteria of the family Alteromonadaceae (2001)
  • Nanoscale Structure and Properties of Microbial Cell Surfaces (2007) ISBN 9781600212420
  • New Functional Biomaterials for Medicine and Healthcare (2014) ISBN 9781782422662
  • Antibacterial surfaces (2015) ISBN 9783319185934
  • Superhydrophobic surfaces (2015) ISBN 9780128011096

Selected articles

  • Vu, B., Chen, M., Crawford, R. J., & Ivanova, E. P. (2009). Bacterial extracellular polysaccharides involved in biofilm formation. Molecules, 14(7), 2535–2554.
  • Ivanova, E. P., Hasan, J., Webb, H. K., Truong, V. K., Watson, G. S., Watson, J. A., ... & Crawford, R. J. (2012). Natural bactericidal surfaces: mechanical rupture of Pseudomonas aeruginosa cells by cicada wings. Small, 8(16), 2489–2494.
  • Webb, H. K., Arnott, J., Crawford, R. J., & Ivanova, E. P. (2012). Plastic degradation and its environmental implications with special reference to poly (ethylene terephthalate). Polymers, 5(1), 1–18.
  • Hasan, J., Crawford, R. J., & Ivanova, E. P. (2013). Antibacterial surfaces: the quest for a new generation of biomaterials. Trends in biotechnology, 31(5), 295–304.
  • Ivanova, E. P., Hasan, J., Webb, H. K., Gervinskas, G., Juodkazis, S., Truong, V. K., ... & Crawford, R. J. (2013). Bactericidal activity of black silicon. Nature communications, 4(1), 1–7.
  • Linklater, D. P., Baulin, V. A., Le Guével, X., Fleury, J. B., Hanssen, E., Nguyen, T. H. P., ... & Ivanova, E. P. (2020). Antibacterial action of nanoparticles by lethal stretching of bacterial cell membranes. Advanced Materials, 32(52), 2005679.
  • Linklater, D. P., Baulin, V. A., Juodkazis, S., Crawford, R. J., Stoodley, P., & Ivanova, E. P. (2021). Mechano-bactericidal actions of nanostructured surfaces. Nature Reviews Microbiology, 19(1), 8-22.
  • Linklater, D. P., & Ivanova, E. P. (2022). Nanostructured antibacterial surfaces–What can be achieved?. Nano Today, 43, 101404.

References

  1. 1.0 1.1 1.2 "Distinguished Professor Elena Ivanova - RMIT University". https://www.rmit.edu.au/contact/staff-contacts/academic-staff/i/ivanova-distinguished-professor-elena. 
  2. "Professor Elena Ivanova SEAM - ARC Training Centre". https://arcseam.com.au/people/professor-elena-ivanova/. 
  3. "Elena P. Ivanova, Ph.D., Sc.D, J.D. - American Society for Microbiology". https://asm.org/Biographies/Elena-P-Ivanova,-Ph-D-,-Sc-D,-J-D. 
  4. "PAST EVENTS - Royal Society Victoria". https://rsv.org.au/lecture-program/past-events/. 
  5. "Elena P. Ivanova – Google Scholar Profile". https://scholar.google.com.au/citations?user=qB1c0wYAAAAJ&hl=en. 
  6. "Elena P. Ivanova – ResearchGate Profile". https://www.researchgate.net/profile/Elena-Ivanova-2. 
  7. Ivanova, Elena P.; Hasan, Jafar; Webb, Hayden K.; Gervinskas, Gediminas; Juodkazis, Saulius; Truong, Vi Khanh; Wu, Alex H.F.; Lamb, Robert N. et al. (2013). "Bactericidal activity of black silicon". Nature Communications 4: 2838. doi:10.1038/ncomms3838. PMID 24281410. Bibcode2013NatCo...4.2838I. 
  8. Ivanova, Elena P.; Hasan, Jafar; Webb, Hayden K.; Truong, Vi Khanh; Watson, Gregory S.; Watson, Jolanta A.; Baulin, Vladimir A.; Pogodin, Sergey et al. (2012). "Natural Bactericidal Surfaces: Mechanical Rupture of Pseudomonas aeruginosa Cells by Cicada Wings". Small 8 (16): 2489–2494. doi:10.1002/smll.201200528. PMID 22674670. https://onlinelibrary.wiley.com/doi/abs/10.1002/smll.201200528. 
  9. Pogodin, Sergey; Hasan, Jafar; Baulin, Vladimir A.; Webb, Hayden K.; Truong, Vi Khanh; Phong Nguyen, The Hong; Boshkovikj, Veselin; Fluke, Christopher J. et al. (2013). "Biophysical Model of Bacterial Cell Interactions with Nanopatterned Cicada Wing Surfaces". Biophysical Journal 104 (4): 835–840. doi:10.1016/j.bpj.2012.12.046. PMID 23442962. Bibcode2013BpJ...104..835P. 
  10. Vu, Barbara; Chen, Miao; Crawford, Russell; Ivanova, Elena (2009). "Bacterial Extracellular Polysaccharides Involved in Biofilm Formation". Molecules 14 (7): 2535–2554. doi:10.3390/molecules14072535. PMID 19633622. 
  11. Webb, Hayden; Arnott, Jaimys; Crawford, Russell; Ivanova, Elena (2012). "Plastic Degradation and Its Environmental Implications with Special Reference to Poly(ethylene terephthalate)". Polymers 5: 1–18. doi:10.3390/polym5010001. 
  12. Hasan, Jafar; Crawford, Russell J.; Ivanova, Elena P. (2013). "Antibacterial surfaces: the quest for a new generation of biomaterials". Trends in Biotechnology 31 (5): 295–304. doi:10.1016/j.tibtech.2013.01.017. PMID 23434154. https://www.sciencedirect.com/science/article/abs/pii/S0167779913000309. 
  13. Hasan, Jafar; Webb, Hayden K.; Truong, Vi Khanh; Pogodin, Sergey; Baulin, Vladimir A.; Watson, Gregory S.; Watson, Jolanta A.; Crawford, Russell J. et al. (2013). "Selective bactericidal activity of nanopatterned superhydrophobic cicada Psaltoda claripennis wing surfaces". Applied Microbiology and Biotechnology 97 (20): 9257–9262. doi:10.1007/s00253-012-4628-5. PMID 23250225. https://link.springer.com/article/10.1007/s00253-012-4628-5. 
  14. Bazaka, Kateryna; Jacob, Mohan V.; Crawford, Russell J.; Ivanova, Elena P. (2012). "Efficient surface modification of biomaterial to prevent biofilm formation and the attachment of microorganisms". Applied Microbiology and Biotechnology 95 (2): 299–311. doi:10.1007/s00253-012-4144-7. PMID 22618687. https://link.springer.com/article/10.1007/s00253-012-4144-7. 
  15. Elbourne, Aaron; Crawford, Russell J.; Ivanova, Elena P. (2017). "Nano-structured antimicrobial surfaces: From nature to synthetic analogues". Journal of Colloid and Interface Science 508: 603–616. doi:10.1016/j.jcis.2017.07.021. PMID 28728752. Bibcode2017JCIS..508..603E. https://www.sciencedirect.com/science/article/abs/pii/S0021979717307889. 
  16. Elbourne, Aaron; Dupont, Madeleine F.; Collett, Simon; Truong, Vi Khanh; Xu, Xiumei; Vrancken, Nandi; Baulin, Vladimir; Ivanova, Elena P. et al. (2019). "Imaging the air-water interface: Characterising biomimetic and natural hydrophobic surfaces using in situ atomic force microscopy". Journal of Colloid and Interface Science 536: 363–371. doi:10.1016/j.jcis.2018.10.059. PMID 30380435. Bibcode2019JCIS..536..363E. https://www.sciencedirect.com/science/article/abs/pii/S0021979718312530. 
  17. "Swinburne Commons". https://commons.swinburne.edu.au/items/0ae9a508-9203-4e6a-91b8-a3899c008b3c/1/. 
  18. "EUREKA PRIZE FOR SNAL PARTNER ELENA IVANOVA". 20 September 2017. https://itn-snal.net/2017/09/eureka-prize-snal-partner-elena-ivanova/. 
  19. "Meet the RMIT Distinguished Professors". https://www.rmit.edu.au/research/our-research/rmit-distinguished-professorship/distinguished-professors. 
  20. "2nd International Electronic Conference on Applied Sciences". https://asec2021.sciforum.net. 
  21. "Elena P. Ivanova - USERN". https://usern.tums.ac.ir/User/CV/Elena_Ivanova.