STAFF PROFILE
Professor Ivan Cole
Position:
ECP Director, Adv Manufact and Fabrication
College / Portfolio:
Research and Innovation Capability
School / Department:
Enabling Capability Platforms
Phone:
99254401
Email:
ivan.cole@rmit.edu.au
Campus:
Melbourne City Campus
Contact me about:
Research supervision
Professor Ivan Cole is the director of the Advanced Manufacturing and Fabrication ECP.
- Truskewycz, A.,Taha, M.,Deshetti, J.,Shukla, R.,Ball, A.,Cole, I. (2020). Interfacial separation of concentrated dye mixtures from solution with environmentally compatible nitrogenous-silane nanoparticles modified with Helianthus annuus husk extract In: Journal of Colloid and Interface Science, 560, 825 - 837
- Truskewycz, A.,Beker, S.,Ball, A.,Murdoch, B.,Cole, I. (2020). Incorporation of quantum carbon dots into a PVP/ZnO hydrogel for use as an effective hexavalent chromium sensing platform In: Analytica Chimica Acta, 1099, 126 - 135
- Bafkar, O.,Cajas, J.,Calmet, H.,Houzeaux, G.,Rosengarten, G.,Lester, D.,Nguyen, V.,Gulizia, S.,Cole, I. (2020). Impact of sleeping position, gravitational force & effective tissue stiffness on obstructive sleep apnoea In: Journal of Biomechanics, 104, 1 - 11
- Zeng, G.,Zahiri, S.,Gulizia, S.,Chen, Y.,Xu, C.,Chen, X.,Cole, I. (2020). A comparative study of cell growth on a cold sprayed Ti�Ta composite In: Journal of Alloys and Compounds, 826, 1 - 10
- Palaniappan, N.,Cole, I.,Damodaran, K.,Kuznetsov, A.,Thomas, K.,Balasubramanian, K. (2020). Experimental and DFT studies of porous carbon covalently functionalized by polyaniline as a corrosion inhibition barrier on nickel-based alloys in acidic media In: RSC Advances, 10, 12151 - 12165
- Palaniappan, N.,Cole, I.,Kuznetsov, A. (2020). Experimental and computational studies of graphene oxide covalently functionalized by octylamine: Electrochemical stability, hydrogen evolution, and corrosion inhibition of the AZ13 Mg alloy in 3.5% NaCl In: RSC Advances, 10, 11426 - 11434
- Palaniappan, N.,Cole, I.,Caballero-Briones, F.,Manickam, S.,Thomas, K.,Santos, D. (2020). Experimental and DFT studies on the ultrasonic energy-assisted extraction of the phytochemicals of: Catharanthus roseus as green corrosion inhibitors for mild steel in NaCl medium In: RSC Advances, 10, 5399 - 5411
- Spark, A.,Wang, K.,Cole, I.,Law, D.,Ward, L. (2020). Microbiologically influenced corrosion: a review of the studies conducted on buried pipelines In: Corrosion Reviews, 38, 231 - 262
- Chen, R.,Yin, H.,Cole, I.,Shen, S.,Zhou, X.,Wang, Y.,Tang, S. (2020). Exposure, assessment and health hazards of particulate matter in metal additive manufacturing: A review In: Chemosphere, 259, 1 - 17
- Wang, W.,Song, M.,Yang, X.,Zhao, J.,Cole, I.,Chen, X.,Fan, Y. (2020). Synergistic Coating Strategy Combining Photodynamic Therapy and Fluoride-Free Superhydrophobicity for Eradicating Bacterial Adhesion and Reinforcing Corrosion Protection In: ACS applied materials & interfaces, 12, 46862 - 46873
20 PhD Current Supervisions and 4 Masters by Research Current Supervisions
- ICN2-BSC-RMIT Joint Postdoctoral Researcher - Molecular Modelling of Electrochemical Interfaces; and Joint PhD Student - PhD Project - Prediction of electrochemical process in at aqueous-metal interface from a molecular viewpoint. (PhD Candidate Details: Jos� Mar�a Castillo Robles [RMIT ID: 3822096 and E: josemaria.castillo@icn2.cat]. Funded by: Catalan Institute of Nanoscience and Nanotechnology from (2020 to 2024)
- Optiminization of Surface Properties of additive components using an additive/subtractive machine (Project 6) (administered by Swinburne Uni). Funded by: ARC Industrial Transformation Training Centre via other University Grant 2019 from (2019 to 2024)
- Additive metal manufacturing for aerospace applications � high speed laser deposition of thin metal coatings (Project 7) (administered by Swinburne Uni). Funded by: ARC Industrial Transformation Training Centre via other University Grant 2019 from (2019 to 2024)
- Nanostructures and their application for enhancing photocatalytic activity of CO2 (PhD candidate: Jiajia Zhao). Funded by: Australian Institute of Nuclear Science and Engineering Post Graduate Research Award from (2019 to 2021)
- Quantum Dot Sensors for Cyber-Physical Systems in Shipyard 4.0 (Administered by University of Victoria). Funded by: Competitive - Department of Economic Development, Jobs, Transport and Resources from (2019 to 2021)