Overview
Background
Dr. Hossain is currently an Associate Professor in the School of Mechanical and Mining Engineering (SoMME) and has a joint appointment in the Australian Institute for Bioengineering and Nanotechnology (AIBN) at The University of Queensland (UQ). He currently leads a medium size research group within the Australian Centre of Materials Nanotectonics where he is the Co-Director. Dr Hossain has extensive expertise in the area of Materials Science and Engineering and one of the world’s leading researchers in the field of applied superconductivity. He has extensive expertise in a research field in which he has 12 years of experience. His research career has strongly supported by a number of awards, including the Discovery Early Career Researcher Award (DECRA) from ARC, Strategic Research Fellowship from Australian Academy of Sciences, Priming and Bridging grant award from Australian Academy of Technology and Engineering, the Vice-Chancellor’s Emerging Researcher Excellence Award and Vice-Chancellor’s Excellent Industry Partnership Award from University of Wollongong (UOW). His innovative research at the intersection of materials science, magnetism and applied superconductivity has already resulted in the elegant and efficient design of magnetic and superconducting materials for a range of applications including MRI, power cables, fusion magnets and chemical biosensors. He has devised novel strategies based on underlying physics and chemistry to design highly efficient nano-engineered materials and engineering devices which exhibit significantly enhanced superconducting and electromagnetic properties compared to current commercial counterparts.
The existing and new collaboration with leading universities, government organization and industry within Australia and abroad, including UOW, ANSTO, CERN and MIT will strengthen Australia's research profile in the field and the involvement of Dr. Hossain’s long standing industry partner Hyper Tech Reseatch Inc will ensure practical applications in an industry context.
Availability
- Associate Professor MD Shahriar Hossain is:
- Available for supervision
Fields of research
Qualifications
- Doctor of Philosophy, University of Wollongong
Research interests
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A next generation 'smart' superconducting magnet system in persistent mode
This project aims to develop a liquid-helium-free superconducting technology to address the need for more affordable MRI magnets that currently rely on expensive, limited supplies of liquid helium. This project expects to generate a world-first, much needed MRI systems to be operated in persistent mode without a power supply, to obtain high-resolution images and low-cost operation. The expected outcomes include a novel, lightweight, easy-to-operate magnesium diboride superconducting MRI magnet prototype under persistent mode operation. This should provide significant benefits, including reducing the cost associated with conventional liquid helium-dependent technologies and ensuring Australia at the forefront of MRI development worldwide. Industry partner: HyperTech Inc.
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Superconducting materials and discovery of low activation superconducting materials for fusion magnet applications
This highly interdisciplinary project has been initiated in collaborating with the Australian Nuclear Science and Technology Organisation (ANSTO), Australian National University (ANU) and International Thermonuclear Experimental Reactor (ITER), France, CERN, Switzerland, Hyper Tech, USA, QUT and University of Wollongong (UOW) for the development of nano-structured engineered low-activation boron-11 based isotopic high temperature superconductors for the next generation low-cost DEMO fusion reactors. This isotope-based material has been.characterised by a number of state-of-the-art facilities available at UQ, QUT, UOW and ANSTO
-
Porous magnetic nanomaterials and nanocomposites for biomedical application
This is a multidisciplinary project for the development of a number of monodispersed, biocompatible and superparamagnetic porous nanoparticles with high surface area and various surface functionalisations suitable for the use in biological (in vitro and in vivo) experiments. Water dispersible magnetite nanoparticles have been synthesized by thermal decomposition method and with a wet technique by forming a micro-emulsion solution and the surface of the nanoparticles has been functionalised by different functional groups such as thiol, amino acid, etc as per specific requirements. Special designed gold-coated magnetic nanoparticles have been prepared for site-specific exosome profiling for the use in cancer diagnostics.
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Converting biomass into value-added catalysts for water electrolysis
Water electrolysis, the process of using electricity to produce hydrogen from water, provides a clean and sustainable way of producing hydrogen with zero emissions. However, the wider adoption of this technology is currently impeded by the high cost of the precious metal catalysts that speed up the rate of hydrogen production, and the relatively low water to hydrogen conversion efficiency. Australia generates several million tonnes of agricultural waste annually, where it is either left in the field, disposed of directly into landfill or combusted to produce power or heat. In landfill, this waste decomposes into methane gas, a major source of greenhouse gas emissions. Therefore, it is essential to develop new alternative approaches for recycling and adding value to agricultural waste in Australia. This project aims to employ agricultural waste to manufacture new highly active and stable non-precious metal catalysts for accelerating hydrogen production from water electrolysis. The project expects to generate new knowledge in the development of low-cost and sustainable catalysts for renewable hydrogen production and new technology for converting agricultural waste into value-added catalysts. The project outcomes are expected to benefit Australia by creating new commercial opportunities in ‘waste-to-catalyst’ conversion and generating a new pathway for managing and recycling agricultural waste, thus providing both environmental and economic benefits while contributing to a sustainable economy.
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Converting Biomass into Value-Added Products Using Nanoporous Catalysts
This project aims to develop novel nanoporous solid catalysts for efficient conversion of agricultural biomass waste to value-added chemical products. The project will develop highly efficient, cost-effective, reliable and stable catalysts with precise structural and functionality control. The benefits of the project include the advancement of our understanding in catalytic processes during the priming grant and the strong commercial potential of the highly efficient, low-cost catalysts that will be developed during this project. Expected outcomes of this project include not only efficient generation of useful chemical products from biomass waste replacing the need to produce them from refining petroleum, but also generation of useful chemical products with novel properties. The project will have significant economic impact on a number of areas, including agriculture, waste reduction and recycling, food production, pharmaceuticals, cosmetics and biofuel industries. The project will advance knowledge in many fields including catalysis, material science and make a significant contribution in the field of biomass conversion for the synthesis of low-cost and value-added chemicals. The project will also contribute to addressing global pollution issues caused by conventional burning of agricultural waste and petroleum refining.
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A nanoarchitectured platform for early diagnosis and monitoring of cancer
Ovarian cancer (OC), a leading cause of cancer-related death in women, demands early and accurate diagnosis for improved outcomes. Exosomes, especially exosomal biomarkers like proteins and miRNAs, are promising candidates for early OC detection. However, existing techniques involve complex processes and specialized laboratories, hindering routine clinical use. To overcome these challenges, this project aims to develop a portable and automated diagnostic device. This device, utilizing novel mesoporous nanostructures, will automatically isolate, purify, and simultaneously detect exosomes and exosomal biomarkers for early OC diagnosis and treatment monitoring. The engineered nanostructures will enhance efficiency, enabling diagnosis in primary healthcare settings. This project promises a robust, cost-effective, and impactful automated device for OC detection and treatment monitoring, offering significant health and economic benefits for patients.
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Nanoarchitectured platform for molecular profiling of exosomes with single particle resolution
Exosomes, extracellular vesicles (EVs) carrying cellular molecular contents and tissue-specific signaling molecules (e.g., DNA, exosomal miRNA, lipids, and cell-surface proteins), can be precisely and ultrasensitively detected in biological fluids. This project endeavors to create innovative nanotechnologies and nanofabrication strategies, resulting in a highly sensitive and robust nanoarchitectonics integrated automated platform for the molecular profiling of exosomes at a single-particle resolution. The developed technologies will offer insights into synthesizing target-specific mesoporous nanomaterials, nanofabrication strategies, and a nano-platform for the automatic isolation and quantification of exosomes and their contents, eliminating the need for sophisticated laboratories and human intervention. By combining mesoporous nanostructure design with project informatics, this project seeks to advance knowledge in nanoengineering, nanofabrication, and signal transduction, ultimately contributing to the field of exosome chemistry.
Research impacts
Dr Hossain’s sustained research excellence is demonstrated through more than 200+ publications with over 8,000 citations (h-index 47; Google Scholar April. 2022), including high-impact publications in Nature Protocols (1) Nature Communications (1), Advanced Materials (1), Advanced Energy Materials (1), Trends in biochemical sciences (1), Materials Horizon (2), Angewandte Chemie (2). The growing impact of his research is evidenced by the rapid increase in his total citations (by ~500 every year since 2017); in 2020 alone, his research works have been cited ~2,000 times, which is exceptional in his field. According to Google Scholar, he is currently the top cited researcher in the field of magnesium diboride (MgB2) superconductor.
In recognition of his sustained, prolific and creative contributions, he has attracted significant national and international research funding totalling approximately $5 million from a range of sources, including the ARC (a DECRA Fellowship, a Discovery Project, two Linkage Projects in last six years), overseas government agencies, and leading industry partners.
Dr. Hossain has the proven leadership capability required to build the novel research capacity demanded by this transformative research program. He has been playing an important leadership role in initiating and pioneering new research directions/areas of superconducting fields since he started in his first research (PhD as APAI) position at UOW in 2006. During the last 10 years, he has started to grow a moderate sized research group, attracted funding from national and international competitive grants programs, developed research infrastructure, attracted high quality PhD students, postdoctoral researchers, and invited eminent scientists from around the world. His research in superconducting material and their applications has attracted great attention from the national and international scientific community, which is evidenced by his large number of high impact publications and citations. In last five years, 8 higher degree research students have been graduated under his supervision in the field of applied superconductivity. In addition, he has attracted and trained 15 PhD students of the highest calibre and mentored more than 20 postdoctoral researchers in various research fields.
Works
Search Professor MD Shahriar Hossain’s works on UQ eSpace
2017
Journal Article
Direct production of furfural in one-pot fashion from raw biomass using brønsted acidic ionic liquids
Matsagar, Babasaheb M, Hossain, Shahriar A, Islam, Tofazzal, Alamri, Hatem R, Alothman, Zeid A, Yamauchi, Yusuke, Dhepe, Paresh L and Wu, Kevin C-W (2017). Direct production of furfural in one-pot fashion from raw biomass using brønsted acidic ionic liquids. Scientific reports, 7 (1) 13508, 13508. doi: 10.1038/s41598-017-13946-4
2017
Journal Article
Gold-loaded nanoporous ferric oxide nanocubes with peroxidase-mimicking activity for electrocatalytic and colorimetric Detection of autoantibody
Masud, Mostafa Kamal, Yadav, Sharda, Islam, Md. Nazmul, Nguyen, Nam-Trung, Salomon, Carlos, Kline, Richard, Alamri, Hatem R., Alothman, Zeid A., Yamauchi, Yusuke, Hossain, Md. Shahriar A. and Shiddiky, Muhammad J. A. (2017). Gold-loaded nanoporous ferric oxide nanocubes with peroxidase-mimicking activity for electrocatalytic and colorimetric Detection of autoantibody. Analytical Chemistry, 89 (20), 11005-11013. doi: 10.1021/acs.analchem.7b02880
2017
Journal Article
Strategies for improving the functionality of zeolitic imidazolate frameworks: Tailoring nanoarchitectures for functional applications
Kaneti, Yusuf Valentino, Dutta, Saikat, Hossain, Md. S. A., Shiddiky, Muhammad J. A., Tung, Kuo-Lun, Shieh, Fa-Kuen, Tsung, Chia-Kuang, Wu, Kevin C. -W. and Yamauchi, Yusuke (2017). Strategies for improving the functionality of zeolitic imidazolate frameworks: Tailoring nanoarchitectures for functional applications. Advanced Materials, 29 (38) 1700213, 1700213. doi: 10.1002/adma.201700213
2017
Journal Article
Fabrication, transport current testing, and finite element analysis of MgB2 racetrack coils
Kundu, Ananya, Patel, Dipak, Kumar, Nitish, Panchal, Arun G., Qiu, Wenbin, Jie, Hyunseock, Ma, Zongqing, Yanmaz, Ekrem, Shahabuddin, Mohammed, Kim, Jung Ho, Pradhan, Subrata and Hossain, Md Shahriar Al (2017). Fabrication, transport current testing, and finite element analysis of MgB2 racetrack coils. Journal of Superconductivity and Novel Magnetism, 30 (10), 2957-2962. doi: 10.1007/s10948-016-3870-y
2017
Journal Article
Trifunctional Fe3O4/CaP/alginate core-shell-corona nanoparticles for magnetically guided, pH-responsive, and chemically targeted chemotherapy
Wang, Yu-Pu, Liao, Yu-Te, Liu, Chia-Hung, Yu, Jiashing, Alamri, Hatem R., Alothman, Zeid A., Hossain, Md. Shahriar A., Yamauchi, Yusuke and Wu, Kevin C. -W. (2017). Trifunctional Fe3O4/CaP/alginate core-shell-corona nanoparticles for magnetically guided, pH-responsive, and chemically targeted chemotherapy. ACS Biomaterials Science and Engineering, 3 (10), 2366-2374. doi: 10.1021/acsbiomaterials.7b00230
2017
Journal Article
Correction: Gold-loaded nanoporous iron oxide nanocubes: a novel dispersible capture agent for tumor-associated autoantibody analysis in serum (vol 9, pg 8805, 2017)
Yadav, Sharda, Masud, Mostafa Kamal, Islam, Md. Nazmul, Gopalan, Vinod, Lam, Alfred King-yin, Tanaka, Shunsuke, Nam-Trung Nguyen, Al Hossain, Md. Shahriar, Li, Cuiling, Yamauchi, Yusuke and Shiddiky, Muhammad J. A. (2017). Correction: Gold-loaded nanoporous iron oxide nanocubes: a novel dispersible capture agent for tumor-associated autoantibody analysis in serum (vol 9, pg 8805, 2017). Nanoscale, 9 (36), 13829-13829. doi: 10.1039/c7nr90194a
2017
Journal Article
Lignocellulosic biomass-derived, graphene sheet-like porous activated carbon for electrochemical supercapacitor and catechin sensing
Veeramani, Vediyappan, Sivakumar, Mani, Chen, Shen-Ming, Madhu, Rajesh, Alamri, Hatem R., Alothman, Zeid A., Hossain, Md. Shahriar A., Chen, Ching-Kuo, Yamauchi, Yusuke, Miyamotoc, Nobuyoshi and Wu, Kevin C. -W. (2017). Lignocellulosic biomass-derived, graphene sheet-like porous activated carbon for electrochemical supercapacitor and catechin sensing. Rsc Advances, 7 (72), 45668-45675. doi: 10.1039/c7ra07810b
2017
Journal Article
Fabrication of mesoporous cu films on cu foils and their applications to dopamine sensing
Baba, Daisuke, Li, Cuiling, Malgras, Victor, Jiang, Bo, Alamri, Hatem R., Alothman, Zeid A., Hossain, Md. Shahriar A., Yamauchi, Yusuke and Asahi, Toru (2017). Fabrication of mesoporous cu films on cu foils and their applications to dopamine sensing. Chemistry: An Asian Journal, 12 (18), 2467-2470. doi: 10.1002/asia.201700862
2017
Journal Article
High performance capacitive deionization electrodes based on ultrathin nitrogen-doped carbon/graphene nano-sandwiches
Wang, Miao, Xu, Xingtao, Tang, Jing, Hou, Shujin, Hossain, Md. Shahriar A., Pan, Likun and Yamauchi, Yusuke (2017). High performance capacitive deionization electrodes based on ultrathin nitrogen-doped carbon/graphene nano-sandwiches. Chemical Communications, 53 (78), 10784-10787. doi: 10.1039/c7cc05673g
2017
Journal Article
Zeolitic imidazolate framework (ZIF-8) derived nanoporous carbon: the effect of carbonization temperature on the supercapacitor performance in an aqueous electrolyte (vol 18, pg 29308, 2016)
Young, Christine, Salunkhe, Rahul R., Tang, Jing, Hu, Chi-Chang, Shahabuddin, Mohammed, Yanmaz, Ekrem, Hossain, Md. Shahriar A., Kim, Jung Ho and Yamauchi, Yusuke (2017). Zeolitic imidazolate framework (ZIF-8) derived nanoporous carbon: the effect of carbonization temperature on the supercapacitor performance in an aqueous electrolyte (vol 18, pg 29308, 2016). Physical Chemistry Chemical Physics, 19 (33), 22596-22596. doi: 10.1039/c7cp90179h
2017
Journal Article
Origin of thermally stable ferroelectricity in a porous barium titanate thin film synthesized through block copolymer templating(vol 5, 076111, 2017)
Suzuki, Norihiro, Osada, Minoru, Billah, Motasim, Alothman, Zeid Abdullah, Bando, Yoshio, Yamauchi, Yusuke and Hossain, Md. Shahriar A. (2017). Origin of thermally stable ferroelectricity in a porous barium titanate thin film synthesized through block copolymer templating(vol 5, 076111, 2017). Apl Materials, 5 (9) 076111, 099901. doi: 10.1063/1.5000538
2017
Journal Article
Electrochemical biosensing strategies for DNA methylation analysis
Hossain, Tanvir, Mahmudunnabi, Golam, Masud, Mostafa Kamal, Islam, Md. Nazmul, Ooi, Lezanne, Konstantinov, Konstantin, Al Hossain, Md Shahriar, Martinac, Boris, Alici, Gursel, Nguyen, Nam-Trung and Shiddiky, Muhammad J. A. (2017). Electrochemical biosensing strategies for DNA methylation analysis. Biosensors and Bioelectronics, 94, 63-73. doi: 10.1016/j.bios.2017.02.026
2017
Journal Article
Continuous mesoporous Pd films by electrochemical deposition in nonionic micellar Solution
Iqbal, Muhammad, Li, Cuiling, Wood, Kathleen, Jiang, Bo, Takei, Toshiaki, Dag, Omer, Baba, Daisuke, Nugraha, Asep Sugih, Asahi, Toru, Whitten, Andrew E., Hossain, Md. Shahriar A., Malgras, Victor and Yamauchi, Yusuke (2017). Continuous mesoporous Pd films by electrochemical deposition in nonionic micellar Solution. Chemistry of Materials, 29 (15), 6405-6413. doi: 10.1021/acs.chemmater.7b01811
2017
Journal Article
Fabrication of an MOF-derived heteroatom-doped Co/CoO/carbon hybrid with superior sodium storage performance for sodium-ion batteries
Kaneti, Yusuf Valentino, Zhang, Jun, He, Yan-Bing, Wang, Zhijie, Tanaka, Shunsuke, Hossain, Md Shahriar A., Pan, Zheng-Ze, Xiang, Bin, Yang, Quan-Hong and Yamauchi, Yusuke (2017). Fabrication of an MOF-derived heteroatom-doped Co/CoO/carbon hybrid with superior sodium storage performance for sodium-ion batteries. Journal of Materials Chemistry A, 5 (29), 15356-15366. doi: 10.1039/c7ta03939e
2017
Journal Article
Nanoarchitecture of MOF-derived nanoporous functional composites for hybrid supercapacitors
Kim, Jeonghun, Young, Christine, Lee, Jaewoo, Heo, Yoon-Uk, Park, Min-Sik, Hossain, Md. Shahriar A., Yamauchi, Yusuke and Kim, Jung Ho (2017). Nanoarchitecture of MOF-derived nanoporous functional composites for hybrid supercapacitors. Journal of Materials Chemistry A, 5 (29), 15065-15072. doi: 10.1039/c7ta03356g
2017
Journal Article
New types of high field pinning centers and pinning centers for the peak effect
Gajda, Daniel, Zaleski, Andrzej, Morawski, Andrzej and Hossain, Md Shahriar A. (2017). New types of high field pinning centers and pinning centers for the peak effect. Superconductor Science and Technology, 30 (8) 085011, 085011. doi: 10.1088/1361-6668/aa769f
2017
Journal Article
Effect of various carbonization temperatures on ZIF-67 derived nanoporous carbons
Guo, Yanna, Tang, Jing, Salunkhe, Rahul R., Alothman, Zeid Abdullah, Hossain, Md. Shahriar A., Malgras, Victor and Yamauchi, Yusuke (2017). Effect of various carbonization temperatures on ZIF-67 derived nanoporous carbons. Bulletin of the Chemical Society of Japan, 90 (8), 939-942. doi: 10.1246/bcsj.20170138
2017
Journal Article
Gold-loaded nanoporous superparamagnetic nanocubes for catalytic signal amplification in detecting miRNA
Masud, Mostafa Kamal, Islam, Md. Nazmul, Haque, Md. Hakimul, Tanaka, Shunsuke, Gopalan, Vinod, Alici, Gursel, Nguyen, Nam-Trung, Lam, Alfred K., Hossain, Md. Shahriar A., Yamauchi, Yusuke and Shiddiky, Muhammad J. A. (2017). Gold-loaded nanoporous superparamagnetic nanocubes for catalytic signal amplification in detecting miRNA. Chemical Communications, 53 (58), 8231-8234. doi: 10.1039/c7cc04789d
2017
Journal Article
Microstructure Refinement in W-Y2O3 Alloy Fabricated by Wet Chemical Method with Surfactant Addition and Subsequent Spark Plasma Sintering
Dong, Zhi, Liu, Nan, Ma, Zongqing, Liu, Chenxi, Guo, Qianying, Alothman, Zeid Abdullah, Yamauchi, Yusuke, Hossain, Md. Shahriar A. and Liu, Yongchang (2017). Microstructure Refinement in W-Y2O3 Alloy Fabricated by Wet Chemical Method with Surfactant Addition and Subsequent Spark Plasma Sintering. Scientific Reports, 7 (1) 6051. doi: 10.1038/s41598-017-06437-z
2017
Journal Article
Quantification of gene-specific DNA methylation in oesophageal cancer via electrochemistry
Haque, Md. Hakimul, Gopalan, Vinod, Islam, Md. Nazmul, Masud, Mostafa Kamal, Bhattacharjee, Ripon, Al Hossain, Md. Shahriar, Nguyen, Nam-Trung, Lam, Alfred K. and Shiddiky, Muhammad J. A. (2017). Quantification of gene-specific DNA methylation in oesophageal cancer via electrochemistry. Analytica Chimica Acta, 976, 84-93. doi: 10.1016/j.aca.2017.04.034
Funding
Current funding
Supervision
Availability
- Associate Professor MD Shahriar Hossain is:
- Available for supervision
Before you email them, read our advice on how to contact a supervisor.
Available projects
-
Porous magnetic nanomaterials and nanocomposites for biomedical application
This is a multidisciplinary project for the development of a number of monodispersed, biocompatible and superparamagnetic porous nanoparticles with high surface area and various surface functionalisations suitable for the use in biological (in vitro and in vivo) experiments. Water dispersible magnetite nanoparticles have been synthesized by thermal decomposition method and with a wet technique by forming a micro-emulsion solution and the surface of the nanoparticles has been functionalised by different functional groups such as thiol, amino acid, etc as per specific requirements. Special designed gold-coated magnetic nanoparticles have been prepared for site-specific exosome profiling for the use in cancer diagnostics.
-
Superconducting materials and discovery of low activation superconducting materials for fusion magnet applications
This highly interdisciplinary project has been initiated in collaborating with the Australian Nuclear Science and Technology Organisation (ANSTO), Australian National University (ANU) and International Thermonuclear Experimental Reactor (ITER), France, CERN, Switzerland, Hyper Tech, USA, QUT and University of Wollongong (UOW) for the development of nano-structured engineered low-activation boron-11 based isotopic high temperature superconductors for the next generation low-cost DEMO fusion reactors. This isotope-based material has been.characterised by a number of state-of-the-art facilities available at UQ, QUT, UOW and ANSTO
-
A next generation 'smart' superconducting magnet system in persistent mode
This project aims to develop a liquid-helium-free superconducting technology to address the need for more affordable MRI magnets that currently rely on expensive, limited supplies of liquid helium. This project expects to generate a world-first, much needed MRI systems to be operated in persistent mode without a power supply, to obtain high-resolution images and low-cost operation. The expected outcomes include a novel, lightweight, easy-to-operate magnesium diboride superconducting MRI magnet prototype under persistent mode operation. This should provide significant benefits, including reducing the cost associated with conventional liquid helium-dependent technologies and ensuring Australia at the forefront of MRI development worldwide.
Industry partner: HyperTech Inc.
-
A nanoarchitectured platform for early diagnosis and monitoring of ovarian cancer
Ovarian cancer (OC), a leading cause of cancer-related death in women, demands early and accurate diagnosis for improved outcomes. Exosomes, especially exosomal biomarkers like proteins and miRNAs, are promising candidates for early OC detection. However, existing techniques involve complex processes and specialized laboratories, hindering routine clinical use. To overcome these challenges, this project aims to develop a portable and automated diagnostic device. This device, utilizing novel mesoporous nanostructures, will automatically isolate, purify, and simultaneously detect exosomes and exosomal biomarkers for early OC diagnosis and treatment monitoring. The engineered nanostructures will enhance efficiency, enabling diagnosis in primary healthcare settings. This project promises a robust, cost-effective, and impactful automated device for OC detection and treatment monitoring, offering significant health and economic benefits for patients.
Supervision history
Current supervision
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Doctor Philosophy
Superconducting joints for MRI magnet in persistent mode
Principal Advisor
Other advisors: Professor Yusuke Yamauchi
-
Doctor Philosophy
Magneto Plasmonic Mesoporous nanostructures for the profiling of clinically relevant biomarkers
Principal Advisor
Other advisors: Dr Mostafa Kamal Masud, Professor Yusuke Yamauchi, Dr Valentino Kaneti
-
Doctor Philosophy
Optimised magnesium infiltration process: towards the development of high performance superconducting MgB2 joints for MRI magnets
Principal Advisor
Other advisors: Professor Yusuke Yamauchi
-
Doctor Philosophy
Advanced Mesoporous Metallic Materials for Photo-Electrochemical Applications
Associate Advisor
Other advisors: Dr Nasim Amiralian, Professor Yusuke Yamauchi, Dr Valentino Kaneti
-
Doctor Philosophy
Two-Dimensional Covalent Organic Framework for Next-Generation Batteries
Associate Advisor
Other advisors: Professor Yusuke Yamauchi, Dr Jie Wang
-
Doctor Philosophy
Synthesis functional porous carbons by new chemical approaches
Associate Advisor
Other advisors: Dr Valentino Kaneti, Professor Yusuke Yamauchi
-
Doctor Philosophy
Development of Porous Copper-Based Catalysts with Enhanced Electrocatalytic Activity for Carbon Dioxide Reduction to Value-Added Chemicals.
Associate Advisor
Other advisors: Professor Yusuke Yamauchi, Dr Valentino Kaneti
-
Doctor Philosophy
Nanoarchitectured Multifunctional Porous Superparamagnetic Nanoparticles
Associate Advisor
Other advisors: Professor Carlos Salomon Gallo, Dr Mostafa Kamal Masud, Dr Valentino Kaneti, Professor Yusuke Yamauchi
-
Doctor Philosophy
Synthesis of Metal-Organic Frameworks Derived Carbon Nanomaterials for Electrocatalysis.
Associate Advisor
Other advisors: Professor Yusuke Yamauchi, Dr Valentino Kaneti
Completed supervision
-
2024
Doctor Philosophy
Nanoarchitectured Mesoporous Gold-Alloy for microRNA Sensing
Principal Advisor
Other advisors: Professor Carlos Salomon Gallo, Dr Mostafa Kamal Masud, Professor Yusuke Yamauchi, Dr Valentino Kaneti
-
2022
Doctor Philosophy
Ultra-high Piezoresponse in Mesoscale Doped Barium Titanate Perovskite - A New Avenue of Energy Harvesting
Principal Advisor
Other advisors: Professor Alan Rowan, Professor Yusuke Yamauchi
-
2024
Doctor Philosophy
Wet-chemical Process for the Preparation of Mesoporous Gold-Based Materials
Associate Advisor
Other advisors: Professor Alan Rowan, Dr Minsu Han, Professor Yusuke Yamauchi
-
2023
Doctor Philosophy
Universal Electrochemical Synthesis of Mesoporous Chalcogenide Semiconductors
Associate Advisor
Other advisors: Professor Yusuke Yamauchi
-
2022
Doctor Philosophy
Synthesis of Mesoporous Platinum-Group-Metals (PGMs)-Based Nanoarchitectures for Energy and Environmental Applications
Associate Advisor
Other advisors: Professor Michael Yu, Professor Alan Rowan, Professor Yusuke Yamauchi
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2020
Doctor Philosophy
Nanoarchitectured Point-of-Care Detection System for Clinically Relevant Biomarkers
Associate Advisor
Other advisors: Professor Alan Rowan, Professor Yusuke Yamauchi
Media
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