Our Researchers
CAMBR faculty span ten departments and three faculties including the Faculty of Science, Faculty of Engineering, and Schulich School of Medicine and Dentistry. Their expertise range from materials synthesis to characterization, computation, and biological evaluation. Many groups are working together to tackle key societal challenges through materials innovation.
Alphabetical Navigation (Last Name)
K - L
W - Z
A - E
Abdolvand, Hamid
Email: hamid.abdolvand@uwo.ca
Phone: 519-661-2111 x88016
Office: SEB 3077
Affiliated Research and Core Projects
Computation, characterization of structure and properties
About
Hamid Abdolvand is a faculty member of
Faculty Page
Research Group Page (Multiscale Deformation Lab)
Baines, Kim
Email: kbaines2@uwo.ca
Phone: 519-661-2111 x86302
Office: Chemistry Building, 310A
About
Multiply-bonded compounds of silicon and germanium have proven to be powerful building blocks in organometallic chemistry just as alkenes and alkynes are in organic synthesis and polymer chemistry. The importance of alkenes in organic polymers is undisputed. Recently, Dr. Baines has discovered a new approach to
Affiliated Research and Core Projects
Materials synthesis and processing
Banerjee, Neil
Email: neil.banerjee@uwo.ca
Phone: 519-661-2111 x83727
Office: Biological and Geological Sciences Building (BGS), Rm. 0166
Affiliated Research and Core Projects
Earth science, stable isotope biogeochemistry, mineral exploration
About
Dr. Banerjee is the NSERC/Yamana Gold Inc. Industrial Research Chair in Advanced Mineral Exploration. His research focuses on the geologic history of the origins of life and the structure of the earth as recorded in oceanic sediments and rocks. He works collaboratively with industry on mining and mineral exploration, particularly
Bartha, Robert
Email: rbartha@robarts.ca
Phone: 519-663-5777 x24039
Office: Robarts Research Institute, 1250E
Affiliated Research and Core Projects
MR In-Vivo Proton Spectroscopy, MR In-Vivo Sodium Imaging, Biological Evaluation
About
Dr. Bartha's program involves the characterization of novel nanomaterials for use as magnetic resonance imaging contrast agents. In particular, the characterization and development of methods to detect nanomaterials with greater sensitivity using a mechanism called chemical exchange saturation transfer. The use of this mechanism provides opportunities to utilize nanomaterials to report physiological conditions such as temperature and pH in biological systems.
Biesinger, Mark
Email: biesingr@uwo.ca
Phone: 519-661-2173 519-661-2111 x86701
Office: Convergence Centre, LL27
Affiliated Research and Core Projects
Surface science and engineering, characterization of structure and properties, understanding materials degradation
About
Dr. Mark C. Biesinger is the Director of Surface Science Western (Western University), Canada’s leading surface analysis and materials characterization facility. Mark is an internationally recognized expert in X-ray photoelectron spectroscopy (XPS). He has several highly-cited publications in the field which focus on improvements in both sample analysis and data interpretation techniques, particularly in the analysis of transition metals. He also has extensive experience with SSW’s wide range of surface analysis and materials characterization techniques including various XPS, SEM/EDX, optical microscopes, and static and ToF-SIMS instruments.The team at Surface Science Western carries out short and long-term analytical, consultative, research and development work with local, national and international partners in a wide range of industrial sectors including: automotive, aerospace, mining, energy, medical, environmental and electronics.
Blamey, Nigel
Email: nblamey2@uwo.ca
Phone: 519-661-2111 x85246
Office: BGS 1000D
Affiliated Research and Core Projects
Sustainable resource extraction and production, characterization of structure and properties,
About
I am a geochemist who specializes in fluid inclusion and geochemical applications to geothermal systems, hydrothermal ore deposits, and petroleum basins. My principle tool is a custom-built mass spectrometer system for fluid inclusion gas analysis. This unique system quantitatively analyses fluid inclusion volatiles
Boutilier, Michael
Email: michael.boutilier@uwo.ca
Phone: 519-661-2111 x84361
Office: Thompson Engineering Building, Room 437
Affiliated Research and Core Projects
Materials for sustainable energy, nanostructured membranes
About
Michael Boutilier is an Assistant Professor in the Department of Chemical and Biochemical Engineering and cross-appointed to the Department of Mechanical and Materials Engineering. His research is on nanostructured membranes with a particular interest in graphene and carbon nanotube technologies.
Charpentier, Paul
Email: pcharpentier@eng.uwo.ca
Phone: 519-661-2111 x83466
Office: Claudette Mackay-Lassonde Pavilion, 3333
Affiliated Research and Core Projects
Materials for sustainable energy, materials synthesis
About
Dr. Paul Charpentier is a Professor in the Department of Chemical and Biochemical Engineering and Mechanical & Materials Engineering at Western University. He is a member of International Composites Research Centre (ICRC). Dr. Charpentier is also a Professor in the Institute for Chemicals and Fuels from Alternative Resources (ICFAR) and the Biomedical Engineering Graduate Program at Western University.
Dr. Charpentier's main area of research is developing new “green nanotechnologies” for environmentally-friendly and alternative energy applications. His group enjoys working with industry on problems which lead to developing new areas in basic science and applying them to
Constas, Styliani
Email: sconstas@uwo.ca
Phone: 519-661-2111 x86338
Office: Chemistry Building, 071
Affiliated Research and Core Projects
Computation
About
My research group studies the stability of chemical and biochemical systems by investigating their dynamics using computer
Corrigan, John
Email: corrigan@uwo.ca
Phone: 519-661-2111 x86387
Office: Chemistry Building, 16
Affiliated Research and Core Projects
Materials synthesis and processing
About
The research program in the Corrigan group is based on the development of molecular inorganic synthesis with a primary focus on the assembly of mixed d block metal-main group polynuclear complexes. The research program focuses on the design of new reagents for the assembly of metal containing molecular species, which include
de Bruyn, John
Email: debruyn@uwo.ca
Phone: 519-661-2111 x86430
Office: Physics and Astronomy, 230
Affiliated Research and Core Projects
Characterization of structure and properties
About
My research is mostly in the area of experimental condensed matter
Denniston, Colin
Email: cdennist@uwo.ca
Phone: 519-661-2111 x88791
Office: Middlesex College, 226
Affiliated Research and Core Projects
Materials for sustainable energy, Computation
About
The Denniston group's research focuses on
Ding, Zhifeng
Email: zfding@uwo.ca
Phone: 519-661-2111 x86161
Office: MSA, 0203
Affiliated Research and Core Projects
Materials for sustainable energy, Understanding materials degradation, Surface science
About
Dr. Ding’s research group is applying modern analytical methods such as electrochemistry, spectroscopy
Dixon, Jeffrey
Email: jeff.dixon@schulich.uwo.ca
Phone: 519-661-3769
Office: Dental Sciences Building, Room 0075
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Biological evaluation
About
Dr. Jeff Dixon is a Distinguished University Professor in the Department of Physiology and Pharmacology, and School of Dentistry at Western University in London, Canada. He studies the cellular and molecular mechanisms underlying the resorption and formation of mineralized tissues. Collaboratively, he is investigating mechanotransduction in skeletal cells and developing advanced materials for bone regeneration and dental applications. Dixon has served on the Advisory Board of the Institute of Musculoskeletal Health and Arthritis (one of the Canadian Institutes of Health Research, CIHR) and as president of the Canadian Association for Dental Research. From 2001-2009, he directed the CIHR Group in Skeletal Development and Remodeling, an interdisciplinary team focusing on musculoskeletal and dental health research. Dr. Dixon currently serves on the leadership team of the Bone and Joint Institute at Western University.
F - J
Fanchini, Giovanni
Email: gfanchin@uwo.ca
Phone: 519-661-2111 x86238
Office: Physics and Astronomy, 229
Affiliated Research and Core Projects
Materials for sustainable energy, Characterization of structure and properties
About
Dr. Fanchini's activity encompasses the preparation of carbon-based and organic nanomaterials and their use for the fabrication of optical and electronic devices, including thin film transistors and solar cells. Materials that have been recently investigated include carbon nanotube networks, graphene nanoplatelets, conducting polymers and polyaromatic molecules. Specific characterization and
Flemming, Roberta
Email: rflemmin@uwo.ca
Phone: 519-661-3143
Office: BGS 1062, 1063
Affiliated Research and Core Projects
Sustainable resource extraction and production, characterization of structure and properties,
About
Professor Roberta Flemming and her research group study a variety of mineralogical and geological problems using a combination of crystallography, mineral chemistry and spectroscopy. Observations made from synthetic minerals produced at high temperatures and pressures in the laboratory, and from natural minerals found in Earth and planetary materials, are used to understand changes in mineral structure, chemistry, cation distribution, solid-solubility, and phase transition behaviour in response to changes in pressure, temperature, and composition (P-T-X), on Earth and other planetary bodies.
Flynn, Lauren
Email: lauren.flynn@uwo.ca
Phone: 519-661-2111 x87226
Office: CMLP, 1337
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Biomaterials for cardiovascular disease and wound healing, Biological evaluation
About
Dr. Lauren Flynn is an Associate Professor in the Departments of Chemical & Biochemical Engineering and Anatomy & Cell Biology at The University of Western Ontario. Following her undergraduate degree in Engineering Science, Dr. Flynn completed her Ph.D. in the Department of Chemical Engineering & Applied Chemistry and the Institute of Biomaterials and Biomedical Engineering at the University of Toronto, investigating the design and characterization of natural bioscaffolds for adipose tissue engineering. In 2007, she joined Queen’s University as an Assistant Professor and was subsequently recruited to Western in 2014
The focus of Dr. Flynn’s research is on the development of cell-based regenerative therapies with adipose-derived stem/stromal cells (ASCs) and bioscaffolds derived from the extracellular matrix (ECM) for applications in soft connective tissue regeneration, wound healing, and therapeutic angiogenesis. Her interdisciplinary and translational research program involves collaborations with engineers, biologists, imaging scientists, and clinicians, and is funded by the CIHR, NSERC, and Heart and Stroke Foundation of Canada.
Faculty Page (Chemical and Biochemical Engineering)
Faculty Page (Anatomy and Cell Biology)
Gillies, Elizabeth
Email: egillie@uwo.ca
Phone: 519-661-2111 x80223
Office: MSA, 3202
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Biomaterials for cardiovascular disease and wound healing, Materials synthesis and processing
About
Dr. Gillies’ research involves the design, synthesis
Gilroy, Joe B.
Email: joe.gilroy@uwo.ca
Phone: 519-661-2111 x81561
Office: MSA, 3201
Affiliated Research and Core Projects
Materials for sustainable energy, Understanding materials degradation, Materials synthesis
About
Dr. Gilroy's research is centered around the design and synthesis of inorganic and polymeric materials with potentially desirable conducting, magnetic, redox, and sensing properties. His research has both fundamental and applied aspects, with a long-term goal of making a significant impact
Goncharova, Lyudmila
Email: lgonchar@uwo.ca
Phone: 519-661-2111 x81558
Office: PAB, 231
Affiliated Research and Core Projects
Understanding materials degradation, Surface science
About
Dr. Lyudmila Goncharova is an expert in surface and interface characterization utilizing high and medium energy ion scattering elastic recoil detection analysis, and nuclear reaction analysis. The group’s scientific
Hamilton, Douglas
Email: douglas.hamilton@schulich.uwo.ca
Phone: 519-661-2111 x58194
Office: SEB 3077
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Biomaterials for cardiovascular disease and wound healing, Biological Evaluation
About
Douglas Hamilton,
Hedberg, Yolanda
Email: yhedberg@uwo.ca
Phone: 519-661-2111 x86248
Office: ChB 126
Affiliated Research and Core Projects
Surface Science and Engineering, Characterization of Structure and Properties
About
Dr. Hedberg received her MSc in Materials Science at Friedrich-Alexander university of Erlangen, Germany, her Ph.D. in Corrosion Science at KTH Royal Institute of Technology, Sweden, and conducted her postdoc in Environmental and Occupational Dermatology at Karolinska Institute, Sweden. Her group has the long-term goal to predict corrosion and surface reactions of relevance for health, environmental, and societal safety. Her group explores the dynamic interactions between biological, often protein-rich, environments and different materials, such as metallic implant materials, metal nanoparticles, welding fume nanoparticles, and materials and products containing sensitizing substances.
Henning, Frank
Email: frank.henning@ict.fraunhofer.de
Phone: 490721-4640-420
Office: NA
Affiliated Research and Core Projects
Materials for sustainable energy, Materials synthesis
About
Composite materials, wet compression molding, HP-RTM, in-line compounding of
Hosein, Yara
Email: Yara.Hosein@schulich.uwo.ca
Phone:
Office: NA
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Materials synthesis and processing
About
Dr. Yara Hosein (PhD, Biomedical Engineering) is the Applications Specialist at the Additive Design in Surgical Solutions (ADEISS) Centre, and affiliated with the School of Biomedical Engineering at Western University. Her research focuses on the design and development of customized and personalized medical devices using metal additive manufacturing (commonly termed 3D printing), specifically exploring novel construct designs for maxillofacial and orthopaedic applications, and assessing feasibility of additive manufacturing for dental device fabrication. Additive manufacturing (AM) is a useful tool for medical device development due to the increased design freedom offered by the technology. As such, AM can produce complex geometries found in patient-specific devices, functional features within devices (e.g. lattices), as well as moving assemblies. Additionally, due to its streamlined digital process (CAD model to print), AM allows for rapid design iteration. This facilitates the research and development stages of medical device development, thereby expediting comprehensive testing and validation of devices intended for the clinical market.
Hrymak, Andrew
Email: hrymak@eng.uwo.ca
Phone: 519-661-2128
Office: Spencer Engineering Building, 2008
Affiliated Research and Core Projects
Materials for sustainable energy, Materials synthesis
About
I am interested in problems with complex rheology, multiple phases
Our group does computer simulation and experiments in a number of important polymer processing operations,
We use computational fluid dynamics, finite element
Most of the problems I work on are materials processing related, usually with an industry sponsor.
Huang, Yining
Email: yhuang@uwo.ca
Phone: 519-661-2111 x83122
Office: MSA, 0250
Affiliated Research and Core Projects
Characterization of structure and properties
About
Dr. Yining Huang was born in Beijing, China. He obtained his B.Sc and M.Sc from Peking University and earned his Ph.D. from McGill University (with Ian S. Butler). After
Hudson, Robert
Email: rhhudson@uwo.ca
Phone: 519-661-2111 x86349
Office: ChB, 222
Affiliated Research and Core Projects
Biomaterials for cardiovascular disease and wound healing
About
Dr. Hudson is an expert in oligonucleotide, peptide and cyclen chemistries and produces novel biomaterials for imaging purposes.
Hutter, Jeffrey
Email: jhutter@uwo.ca
Phone: 519-661-2111 x86719
Office: PAB, 209
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Characterization of structure and properties
About
Dr. Hutter is interested in studying materials and processes at the nanometer level. This includes measuring the mechanical properties of nanofibres by atomic-force microscopy, real-time in-situ studies of the inhibition of biomineralization by specific proteins, and probing the structure of hydrogels and complex fluids using neutron scattering. Active collaborations at Western involve researchers in Engineering and the Schulich School of Medicine and Dentistry, as well as in the Faculty of Science.
Jiang, Dazhi
Email: djiang3@uwo.ca
Phone: 519-661-2111 x83192
Office: BGS 0176
Affiliated Research and Core Projects
Sustainable resource extraction and production,
About
Dr. Jiang's research interest lies primarily in using structures and fabrics preserved in Earth's crust and mantle, observed on small scales such as in field rock exposures, in hand samples, and under microscopes, to unravel large-scale tectonic deformation processes. He integrates fieldwork, laboratory microstructural and texture analysis, and numerical modeling in his research. He has developed a self-consistent micromechanical approach for modeling
Jiang, Liying
Email: ljiang55@uwo.ca
Phone: 519-661-2111 x80422
Office: SEB 3076
Affiliated Research and Core Projects
Materials for sustainable energy, Computation
About
Dr. Jiang is currently a professor in the Mechanical & Materials Engineering department at Western University. Dr. Jiang received her B.Sc. in Theoretical and Applied Mechanics from the University of Science and Technology of China in 1994, Master of Engineering degree specialized in Solid Mechanics from Harbin Institute of Technology (China) in 1999, and Ph.D. in Mechanical Engineering from the University of Alberta (Canada) in 2005.
Before she joined Western University as an assistant professor in 2006, Dr. Jiang worked as an NSERC PDF in Mechanical Science and Engineering Department at
Dr. Jiang’s research focuses on theoretical modeling and numerical simulation to develop mechanics and physics models for challenging problems related to materials behavior, ranging from traditional
Johlin, Eric
Email: ejohnlin@uwo.ca
Phone: 519-661-2111 x81426
Office: Spencer Engineering Building (SEB), 3094
Affiliated Research and Core Projects
Nanophotonics; optoelectronics; algorithmic design; nanofabrication; photovoltaics; optical simulations; nanoscale characterization
Materials for sustainable energy
About
Dr.
K - L
Karttunen, Mikko
Email: mkarttu@uwo.ca
Phone: 519-661-2111 x86335
Office
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Computation
About
My research focuses on the properties of biological & soft matter using theory and the methods of computational chemistry and physics. Typical systems are at the interface between materials science, biology & biomedical sciences. I am interested in problems such as lipid diffusion, sterols, bacterial toxins, membrane proteins, antibiotics, translocation of DNA, peptides
Klassen, Robert
Email: rjklasse@uwo.ca
Phone: 519-661-2111 x88323
Office: SEB 3075
Affiliated Research and Core Projects
Understanding materials degradation, Characterization of structure and properties, Surface science and engineering
About
Dr. Klassen's research is directed to studying the mechanisms of time-dependent plastic deformation that operate in small volumes of pure metals and alloys. These studies are performed with either nano-indentation or micro-pillar compression testing and focus on establishing relationships between the underlying deformation mechanisms and microstructural features.
Knopf, George
Email: gkknopf@uwp.ca
Phone: 519-661-2111 x88452
Office: SEB 3087
Affiliated Research and Core Projects
Materials synthesis and processing, Characterization of structure and properties, Surface science and engineering
About
George K. Knopf is a Professor in the Department of Mechanical and Materials Engineering and the Director of Western Engineering’s collaborative (MEng) Engineering in Medicine program. He has expertise in engineering design and advanced manufacturing processes. His research focuses on functional materials and fabrication processes for developing biosensors, bioelectronics and wearable technologies
Konermann, Lars
Email: konerman@uwo.ca
Phone: 519-661-2111 x86313
Office: BGS 2016
Affiliated Research and Core Projects
Computation, Characterization of structure and properties
About
Research in the Konermann laboratory revolves around conformational studies on proteins. In particular, this work focuses on the mechanisms of biomolecular self-assembly (folding and misfolding of protein chains, as well as the formation of protein-protein contacts). Another aspect of Konermann's research program is the relationship between protein structure, function, and conformational dynamics. Much of this work is based on the application of modern mass spectrometry techniques, in conjunction with isotope exchange and covalent labeling approaches.
Lagugné-Labarthet, François
Email: flagugne@uwo.ca
Phone: 519-661-2111 x81006
Office: MSA 0202
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Characterization of structure and properties, Surface science engineering
About
Dr. Lagugné-Labarthet's scientific interest includes the development of high spatial resolution optical spectroscopy for nanomaterial characterization, as well as the design,
Linnen, Robert
Email: rlinnen@uwo.ca
Phone: 519-661-3198
Office: BGS 1000B
Affiliated Research and Core Projects
Sustainable resource extraction and production, characterization of structure and properties
About
Robert Hodder Chair in Economic Geology.
My research focuses on the behavior of metals in magmatic-hydrothermal systems. My approach is to combine field and experimental studies to identify the mechanisms that are important for concentrating metals and controlling mineralization, then quantify these processes to develop ore deposit models and exploration strategies. Current projects involve investigations of precious metal (Au and PGE) and rare metal (Li, Nb, Ta, REE, Sn, W) deposits.
Liu, Lijia
Email: lijia.liu@uwo.ca
Phone: 519-661-2111 x84456
Office: ChB 066
Affiliated Research and Core Projects
Materials synthesis and processing, Characterization of structure and properties, Synchrotron spectroscopy
About
Dr. Liu’s research is on understanding the fundamental properties of advanced materials using synchrotron radiation spectroscopy. Specific techniques include X-ray absorption fine structure, X-ray diffraction, and micro/nano imaging. She is developing characterization techniques that allows to capture the structure, morphology, and luminescence of the materials in situ. Design of the reaction cell can be tailored to suit the needs of individual project. Her ongoing projects include lead halide perovskite-based solar cells and light-emitting devices, metal-centered coordination compounds, and calcium phosphate coatings for bioimplants.
Longstaffe, Fred
Email: flongsta@uwo.ca
Phone: 519-661-2111 x83177
Office: BGS 1023
Affiliated Research and Core Projects
Sustainable resource extraction and production, characterization of structure and properties,
About
Dr. Longstaffe is a Distinguished University Professor and Canada Research Chair in Stable Isotope Science at the University of Western Ontario, where he is a member of the Department of Earth Sciences, cross-appointed in Anthropology, Biology
Canada Research Chair (Tier 1) in Stable Isotope Science
M - P
Macfie, Sheila
Email: smacfie@uwo.ca
Phone: 519-661-2111 x86487
Office: BGS 2051
Plant physiology, stress physiology, toxic metals, emerging contaminants
About
Research in the Macfie laboratory focuses on the physiological responses of plants to environmental contaminants. Her research program has three primary areas: mechanisms that prevent the uptake and translocation of contaminants within plants, mechanisms that detoxify or compartmentalize contaminants that have been taken up, and the influence of contaminants on plant-microbe interactions at the root-soil interface. Much of the work has focused on cadmium and benzalkonium chlorides but recent research includes silver nanoparticles.
McCausland, Phil
Email: pmccausl@uwo.ca
Phone: 519-661-2111 x88008
Office: BGS 0187
Affiliated Research and Core Projects
Sustainable resource extraction and production,
About
Faculty Page
Research Group Page (Western Paleomagnetic & Petrophysical Laboratory)
Mequanint, Kibret
Email: kmequani@uwo.ca
Phone: 519-661-2111 x88573
Office: Thompson Engineering Building, 439
Affiliated Research and Core Projects
Materials synthesis and processing, Biological Evaluation
About
Dr. Kibret Mequanint is a Professor in the Department of Chemical and Biochemical Engineering at Western University. His research is in the fields of Biomaterials, Tissue Engineering and Regenerative Medicine interfacing polymer science, materials and chemical engineering, and life sciences. Over the past 20 years, his work spanned both fundamental understandings and translational research in cell-material interactions, the design of novel polymer biomaterials for medical devices, and therapeutic radiation dosimeters. Some of his technologies are licensed to companies.
Mittler, Silvia
Email: smittler@uwo.ca
Phone: 519-661-2111 x88592
Office: PAB 208
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Characterization of structure and properties, Surface science and engineering,
About
Dr. Silvia Mittler is a physicist who was educated at the Johannes-Gutenberg University in Mainz, Germany. Her diploma thesis work was conducted in the group of Prof. Paul Leiderer in the Department of Physics at the Johannes-Gutenberg University on the topic of " The Investigation of the Phase Transition between Amorphous and Crystalline Tetracene by Raman Spectroscopy" in 1986. For her
In 1993 she returned to the Max-Planck Institute for Polymer Research to build up the integrated optics group. The linear optical characterization of nonlinear optical materials for waveguide application was one aim within the project. New waveguide devices and concepts for sensor application including chemical active sensing layers immobilized on top of the waveguide devices were the focus of interest as well as metal
In 2000 she conducted her "Habilitation" in the Physical Chemistry Department of the Johannes-Gutenberg University in Mainz and gave birth to twin boys. Her partner is a mineralogist and actively involved in research too. Since September 2003 she has been a member of the faculty in the Department of Physics and Astronomy at Western. She had been awarded
Moser, Desmond
Email: desmond.moser@uwo.ca
Phone: 519-661-2111 x84214
Office: BGS 1070
Affiliated Research and Core Projects
Understanding materials degradation, characterization of structure and properties,
About
Dr. Desmond Moser conducts solid Earth and planetary science research using Western’s nationally unique Zircon and Accessory Phase Laboratory (ZAPLab). Micromineral crystal growth and deformation analysis (e.g. CL, EBSD) is integrated with field mapping, microchemical (EDS, WDS), petrologic and mass spectrometry measurements (radiogenic and stable isotopes) at Western and partner institutes. His active projects investigate meteorites, crustal cross-sections, kimberlite xenoliths, sedimentary basins and impact structures in the Americas, Africa
Newson, Tim
Email: tnewson@eng.uwo.ca
Phone: 519-850-2973
Office: SEB 3084
Affiliated Research and Core Projects
Characterization of structure and properties
About
Dr. Newson’s research involves the use of structural engineering analysis, contaminant transport theories and computational flow dynamics to improve the understanding of the biomechanical, viscoelasticity and fluid flow
Noël, James
Email: jjnoel@uwo.ca
Phone: 519-661-2111 x88029
Office: ChB 20
Affiliated Research and Core Projects
Understanding materials degradation, Surface science
About
The Noël group employs innovative, multidisciplinary approaches to solving problems that straddle the boundaries of chemistry, physics, earth sciences, metallurgy, and materials science, especially those related to materials electrochemistry and corrosion/degradation. This often requires designing and constructing specialized apparatus for novel experiments or extreme environments, performing
Paul, Arghya
Email: arghya.paul@uwo.ca
Phone: 519-661-2111 x82249
Office: Thompson Engineering Building (TEB), Rm. 353
About
Dr. Paul’s research investigates and explores different types of biopolymers, polymeric hydrogels and bioactive nanomaterials for delivery of therapeutics (e.g. microRNA, plasmid DNA, secretomes, and growth factors), 3D bioprinting and advanced tissue engineering applications. His lab has developed various types of hydrogels utilizing the innate properties of natural polymers in combination with nanoparticles to deliver therapeutic molecules. These hydrogels enhance the drug loading efficiency, reduce inflammatory responses and control drug release kinetics. Furthermore, he develops shear-thinning hydrogels that are injectable, mechanically deformable and can fill up desired shapes and irregular defects for localized drug delivery. Overall, his lab aims to (1) innovate at the biomolecular and cellular level to develop new biomedical technologies for wound healing and regeneration therapy (2) exploit the stem cell-material interactions and mechanistic pathways, and (3) discover bio-originated therapeutic strategies which can be translated to point-of-care patient applications.
Affiliated Research and Core Projects
Biomaterials; Tissue Engineering; Stem Cell Therapeutics; Nanomedicine; Regenerative Medicine; Hydrogels for Drug Delivery; Medical Implants;
Poepping, Tamie
Email: poepping@uwo.ca
Phone: 519-661-2111 x86431
Office: PAB 236
Affiliated Research and Core Projects
Biomaterials for cardiovascular disease and wound healing,
About
Dr. Poepping’s research focuses on the development of methods for studying blood flow related to vascular and microvascular networks, such as ultrasound imaging and particle image velocimetry (PIV) of macro- and micro-scale flow, as well as the application of lumped-parameter models using pressure and flow data to derive vascular impedance parameters. These tools are used to quantify flow disturbances in life-sized vascular models using ultrasound, PIV, and numerical simulations, including corresponding turbulent and shear stresses metrics associated with disease risk. Recent work also includes the design and implementation of microfluidic devices for rheology, and tissue engineering, and cell biology studies, including endothelial mechanotransduction.
Faculty Page
Research Group Page (Biomedical Ultrasound Research Lab)
Price, Aaron
Email: aaron.price@uwo.ca
Phone: 519-661-2111 x86420
Office: Chakma Engineering Building (ACEB), 3457
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Materials for synthesis and processing,
About
Dr. Aaron Price began investigating smart materials in 2004 through an Institute of Robotics and Intelligent Systems project to develop shape memory alloy based artificial muscle actuators. In 2006 he completed an M.A.Sc. degree in Mechanical Engineering from the University of Ottawa with a focus on smart material enabled prosthetics and robotics. He completed his Ph.D. in Mechanical Engineering at the University of Toronto in 2012, where he developed novel nanoscale EAP actuator technologies for adaptive optics systems. From 2011 to 2014 he was a member of ABB’s Corporate Research Center in Germany specializing in the application of electroactive polymers, magnetic shape memory alloys, and piezo-transducers for industrial sensing, energy harvesting, and actuation technologies. He joined the Department of Mechanical and Materials Engineering at the University of Western Ontario in January of 2015. Dr. Price leads the Organic Mechatronics & Smart Materials Laboratory and is currently a member of the Biomedical Engineering program (biomaterials), Western’s Bone & Joint Institute, and the Western Cluster of Research Excellence in Musculoskeletal Health.
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Ragogna, Paul
Email: pragogna@uwo.ca
Phone: 519-661-2111 x87048
Office: BGS 2022
Affiliated Research and Core Projects
Understanding materials degradation, Materials synthesis and processing, Phosphorus-based materials and barrier coatings
About
Functional polymeric materials have a wide range of established and potential commercial applications. From electrical conductivity, light emission or as barrier films, designer macromolecules play an important role in addressing these and related technological challenges. In this context, the Ragogna group is interested in two particular areas of polymer/functional materials chemistry; (i) Designing surfaces with a high degree of water repellency (superhydrophobicity) that utilize low-cost starting materials, are UV curable and applied in a single coat application process; and, (ii) Side chain functionalized cobalt containing metallopolymers and diblock copolymers, with a high degree of tuneability with respect to the chemical substituents around the cobalt centre.
Rizkalla, Amin
Email: arizkalla@eng.uwo.ca
Phone: 519-661-2111 x82212
Office: Thompson Engineering Building, 435
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Materials synthesis and processing,
About
Dr. Amin Rizkalla earned his
While working in the industrial field prior to his academic career, Rizkalla rose in ranks from Research Engineer to Senior Process Development Engineer to Supervisor of Process Engineering at Combustion Engineering Superheater Ltd. (Division of Nuclear Fuel) in Moncton, New Brunswick, Canada from 1977-1983.
Rogan, Peter
Email: progan@uwo.ca
Phone: 519-661-2111 x84255
Office: SDRI 201A
About
Structural analysis of short DNA probes bound to metaphase chromosomes by nanoscale imaging reveals the topological context of these DNA sequences in the genome. Recent studies have investigated the coupling of kinetochore structural dynamics and centromeric DNA segregation. The methods developed by Dr. Rogan are being used to investigate the topological context of low- and single copy probe sequences on chromosomes, with the goal of understanding and mitigating differences in their accessibility to targets on different homologs.
Affiliated Research and Core Projects
Computation
Rohani, Sohrab
Email: srohani@uwo.ca
Phone: 519-661-2111 x84116
Office: Thompson Engineering Building, 457
Affiliated Research and Core Projects
Materials for sustainable energy, Materials synthesis
About
Dr. Rohani is the past Chair of Chemical and Biochemical Engineering Department at the University of Western Ontario. He obtained his B.Sc. in Chemical Engineering from Pahlavi (Shiraz) University and his Ph.D. from the University of Wales in Process Control. He spent two years at the Swiss Federal Institute of Technology (ETH) in Zurich before joining the Chemical Engineering Department of the University of Saskatchewan in 1982. He has spent sabbatical leaves at the University of Manchester, Institute of Science and Technology (UMIST), England; ETH (Switzerland); the Ecole Nationale Superieure des Industries Chimiques (ENSIC), Nancy, France; and ApotexPharmaChem Inc. (Canada). He has been the recipient of Engineering Medal in Research and Development from the Professional Engineers, Ontario, in 2008 and Western Faculty of Engineering Award for Excellence in Research in 2009.
Ronald, John
Email: jronald2@uwo.ca
Phone: 519-931-5777
Office: RRI, 2241A
Affiliated Research and Core Projects
Biomaterials for cardiovascular disease and wound healing, Biological evaluation
About
As we enter this era of more personalized and precise medicine, new technologies are needed that can sensitively, accurately and non-invasively detect molecular activities within the body over the course of an individual’s entire life. My lab’s research focuses on pioneering novel molecular and cellular imaging technologies that will hopefully meet these needs. We have a particular interest
Secco, Richard
Email: secco@uwo.ca
Phone: 519-661-2111 x.84079
Office: BGS 0178
Affiliated Research and Core Projects
Sustainable resource extraction and production
About
My research interests are in Mineral Physics and Materials Science. We try to understand the effects of high pressures (P) and high/low temperatures (T) on solids and liquids as P and T perturb and present the promise of control of physical properties. We measure electrical, thermal, elastic properties of pure and alloys of transition metals in large volume presses (200 ton and 1000 ton cubic anvil presses; 500 ton and
Séguin, Cheryle
Email: cheryle.seguin@schulich.wuo.ca
Phone: 519-661-2111 x82977
Office: Dental Sciences Building, 0035A
Affiliated Research and Core Projects
Biomaterials for musculoskeletal regeneration and therapy, Biological evaluation
About
Dr. Cheryle Séguin obtained her BSc (1999) and MSc (2001, Dept of Anatomy and Cell Biology) from The University of Western Ontario and her
Following this, Dr. Séguin became a postdoctoral fellow under the supervision of Dr. Janet Rossant at the SickKids Hospital, working in the field of early mammalian development and stem cell biology. While at SickKids Hospital, Dr. Séguin assumed the role of Interim Manager and helped establish the Ontario Human Induced Pluripotent Stem Cell (iPSC) Facility, an
In 2009, Dr. Séguin was recruited to the Department of Physiology and Pharmacology at The University of Western Ontario.
Research in the Séguin lab is focused on understanding the pathways that regulate the fate and function of cells, with a particular emphasis on the intervertebral disc and spine pathologies.
Dr. Séguin’s research includes a number of interrelated projects that use novel genetic mouse strains, and in vivo and ex vivo model systems.
Sham, Tsun-Kong (T.K.)
Email: tsham@uwo.ca
Phone: 519-661-2111 x86341
Office: Chemistry Building, 030A
Affiliated Research and Core Projects
Materials for sustainable energy, Materials synthesis
About
My research
Shieh, Sean
Email: sshieh@uwo.ca
Phone: 519-850-2467
Office: BGS 1066
Affiliated Research and Core Projects
Sustainable resource extraction and production, characterization of structure and properties
Mineral physics; Material study under extreme P-T conditions; Elasticity, Structures and dynamics of the Earth's and planetary interiors; Characterization of materials (e.g. equation of state, phase transition, elasticity, strength, rheology) using synchrotron X-ray, Raman and IR spectroscopy; Exploration of novel and super-hard materials; Material-fluid interaction; high-pressure and high-temperature experiment using a diamond anvil cell.
Email: dwshoem@uwo.ca
Phone: 519-661-2111 x86366
Office: ChB 018
Affiliated Research and Core Projects
Understanding materials degradation, Surface science
About
My primary research aim is to solve various industrial corrosion and environmental contamination problems. A recent focus has been the study of waste containers and waste forms for the disposal of
Our studies have encompassed the range of detailed reactions (electrochemical, chemical, metallurgical, transport) which are embodied in complex localized corrosion processes such as crevice corrosion, pitting and hydrogen-induced cracking. The initiation of localized corrosion involves stochastic events determined by the combination of the exposure environment, the metallurgical properties of the specific material and the chemical and physical properties of the oxide films on the material's surface. The extent of corrosion damage subsequently sustained by the material can be described by a damage function, i.e., the relationship between the depth of corrosion penetration and the time of exposure to the environment. The cessation of localized corrosion involves
We are studying many of these processes on titanium and nickel alloys by monitoring and analyzing the current and potential signals generated during the onset of corrosion. A preliminary damage function has been developed for the crevice corrosion of titanium in the saline groundwaters anticipated in a Canadian nuclear waste disposal vault, and failure criteria developed for the hydrogen induced cracking (HIC) of titanium alloys. For nickel
The long-term corrosion resistance of many materials is determined by the protectiveness of the oxide films, which form on their surface. We are probing the nature of these films, and how they change with exposure to various environments, using techniques such as electrochemical impedance spectroscopy (EIS), neutron reflectometry and noise (signal) analysis. Future plans include the application of techniques such as atomic force microscopy and
On-going studies in
Song, Yang
Email: yang.song@uwo.ca
Phone: 519-661-2111 x86310
Office: ChB 22
Affiliated Research and Core Projects
Characterization of structure and properties
About
Our research group is specialized in the investigation of molecular structures and materials properties under extreme conditions using spectroscopy and synchrotron techniques. Under extreme conditions, such as high pressures, molecular solids often exhibit novel structures and thus extraordinary properties, which are otherwise inaccessible at ambient conditions. High pressure significantly enhances intermolecular interactions and thus weakens chemical bonds. As a result, the optimization of internal energy associated with changes in molecular geometry and density often lead to new phenomena beyond our understanding. Our recent research thrusts are placed on several main themes with promising applications, including pressure-morphology tuning of one-dimensional nanomaterials, high-pressure development of hydrogen storage materials, structural and storage studies of metal-organic frameworks, and exploration of high energy density materials.
Our lab houses state-of-the-art apparatus dedicated to static
Sun, Andy (Xueliang)
Email: xsun@uwo.ca
Phone: 519-661-2111 x87759
Affiliated Research and Core Projects
Materials for sustainable energy, Materials synthesis
About
Dr. Sun’s research is focused on nanomaterials for clean energy. The scope of Sun’s research ranges from fundamental science
Tutunea-Fatan, O. Remus
Email: rtutunea@eng.uwo.ca
Phone: 519-661-2111 x88289
Office: Chakma Engineering Building, 3462
Affiliated Research and Core Projects
Materials synthesis and processing
About
W - Z
Wood, J.T.
Email: jtwood@uwo.ca
Phone: 519-661-3482
Office: SEB 3061
Affiliated Research and Core Projects
Materials for sustainable energy, Characterization of structure and properties
About
Dr. Wood's research is focused on the characterization and application of lightweight structural materials, primarily for automotive applications. Current research projects include the development of process-structure-property relationships for die-cast magnesium alloys and understanding the factors that contribute to the enhanced toughness of polymer composites.
Workentin , Mark
Email: mworkent@uwo.ca
Phone: 519-661-2111 x86319
Office: ChB 223
Affiliated Research and Core Projects
Materials synthesis and processing
About
The @WorkentinChem Group’s focus is to address fundamental physical organic aspects of interfacial organic reactions and to utilize the knowledge gained to design and synthesize new materials and to demonstrate potential applications. Reactions of molecules in solution are supported by a well-developed set of methods from physical organic chemistry, but the reactions of molecules at the interface of materials are not as well understood. We design and synthesize organic molecular systems that undergo specific thermal, photochemical, or electrochemical reactions to serve as probes of the interfacial material environment. Once understood these reactions provide new platforms for selective surface modifications to build new architectures. A cornerstone of our efforts focuses on understanding the mechanistic factors that are unique to interfacial reactions on metal nanoparticle surfaces and carbonaceous material. The importance and motivation behind these studies
To accomplish our goals, we recruit and train inquisitive and creative students at all levels (undergraduate B.Sc., M.Sc., Ph.D.). These personnel master a broad spectrum of core chemical competencies in organic synthetic methods and analysis, inorganic and organic materials chemistry, the specialized techniques for their characterization as well as advanced skills in electrochemistry, photochemistry and materials chemistry. Ultimately, these trained HQP become the creative minds driving the future of Canadian science and innovation. Trained HQP from the group are award winning and have had a 100% professional placement over the last 12+ years.
Wren, Clara
Email: jcwren@uwo.ca
Phone: 519-661-2111 x86339
Office: ChB 016
Affiliated Research and Core Projects
Understanding materials degradation, Computation, Surface science
About
My primary research aim is the application of chemical kinetics analysis and
A primary focus is the study of the chemical reactions and transport phenomena occurring in ionizing radiation environments for nuclear safety and material integrity issues. High radiation fields create a dynamic chemical environment, particularly in systems where water is present. Radiolysis of water produces highly reactive radicals (•OH, •H,
Particular interests
Research topics to address these issues include: (a) the impact of dissolved trace metals and nitrogen-containing compounds on the radiolysis behaviour of water, (b) the effects of metal/metal oxide surfaces on radiolysis and redox chemistry, (c) radiation-induced reactions of iodine and organic compounds in aqueous solutions, (d) the interaction of gaseous iodine with, and accompanying iodine-assisted corrosion of, metals/metal oxides, and (e) mass and heat transport of iodine and water vapour through a charcoal bed under flow conditions.
The development of solutions to such complex problems requires a combination of experimental and
Zhang, Jin
Email: jzhang@eng.uwo.ca
Phone: 519-661-2111 x88322
Office: TEB 465
Affiliated Research and Core Projects
Materials synthesis and processing,
About
Dr. Zhang’s expertise and research interests include the design, processing, surface modification, and characterization of nanocomposites for the applications in the fields of bioengineering and sustainable energy.
The goal of the Multifunctional Nanocomposites Lab (MNL) led by Dr. Zhang at Western is to develop multifunctional nanomaterials used for advanced biomedical devices. To achieve the goal, the Zhang group is dedicated to the study on the surface and interface of hybrid nanomaterials, and the interaction between nanomaterials and biological systems.
Currently, the research activities of the Zhang group focus on developing advanced nanomaterials with enhanced chemical, magnetic, and optical properties. Three research directions in the Zhang group include (1) multifunctional nanocomposites-processing & properties, (2) targeted drug delivery, and (3) protein and
Recently, Zhang is rewarded by the Grand Challenges Canada-Canadian Rising Stars in Global Health for her research work on "Non-invasive Diagnostic Tool for Diabetes".
Dr. Zhang holds cross appointments with the Department of Ophthalmology, Biomedical Engineering, and Medical Biophysics, at Western.
Zhou, Wenxing
Email: wzhou@eng.uwo.ca
Phone: 519-661-2111 x87931
Office: CMLP 1303
Affiliated Research and Core Projects
Understanding materials degradation
About
Dr. Wenxing Zhou's expertise is on structural reliability and risk assessments, Bayesian analysis, fracture mechanics, and design and integrity management of oil and gas pipelines. He teaches courses on structural mechanics and capstone design projects at the undergraduate
Zhu, Jesse
Email: jzhu@uwo.ca
Phone: 519-661-2111 x83807
Office: TEB 453
Affiliated Research and Core Projects
Ultrafine powder technologies, corrosion resistant coatings, antifouling and antimicrobial coatings, pulmonary drug delivery
About
Dr. Jesse Zhu is a Distinguished University Professor and Canada Research Chair in the Department of Chemical and Biochemical Engineering, at Western University. He is also a Fellow of Royal Society of Canada, Canadian Academy of Engineering, Engineering Institute of Canada and the Chemical Institute of Canada, and a registered Professional Engineer in the Province of Ontario (PEO). His current research activities include circulating fluidized bed riser and downer reactors, fluidization and handling of fine and ultrafine powders, (ga -)liquid-solid circulating fluidized beds with applications for chemical and biochemical processes and wastewater treatment, gasification of biomass and solid wastes and biomass co-firing. Current work has also utilized ultrafine powder technologies in development of novel pharmaceutical processing techniques and the development of dry powder coating systems. For example, the results have been utilized for the precise metering and dispensing of very small dosage of ultrafine pharmaceutical powders for pulmonary drug delivery, and for the uniform spraying of fine paint powders for surface coating processes. The drug dispensing technology provides the only dry method that can handle ultrafine drug powders (1-5 microns) in a very small quantity (20-500 microgram doses), without the use of excipients. The ultrafine powder coating technology produces surface quality comparable to that of liquid paint, something that has not been achieved by anyone before in the coating industry.