Doctor James Falconer has been an academic at the School of Pharmacy, The University of Queensland since June 2015. Dr Falconer was an assistant lecturer, then research & teaching fellow at the School of Pharmacy, the University of Auckland from 2011 – 2015.
In 2007 he was awarded with the Technology for Industry Fellowship (TIF) from the New Zealand Foundation for Research, Science & Technology (FRST) from the NZ Government with joint funding from Pharmaceutical Compounding New Zealand (PCNZ) to complete a PhD under A/Professor Jingyuan Wen and Professor Raid Alany from the University of Auckland, New Zealand for development of a supercritical fluid platform and transdermal delivery of poorly aqueous soluble steriods. As a post-doctoral researcher under A/Professor Zimei Wu and collaboration with Argenta Global in Auckland he worked to help stabilise a veterinary pour-on which resulted in international patents and registered product for cattle. He was then appointed as a lecturer in pharmacy practice and pharmaceutical sciences at The University of Queensland in Brisbane, Australia. Prior to his academic career, he received a BSc in Genetics 1999 and a Masters in Health Sciences (Bioethics) in 2003 under A/Professor Neil Pickering on the anatomy of the GMO debate from the University of Otago, Dunedin, New Zealand. In 2005, he completed a BPharm (Hons) from the University of Auckland and undertook an internship at Middlemore Hospital in 2006, then was employed from 2007 as a ward pharmacist in general surgery and the hospital dispensary and as a community pharmacist - including the 'graveyard' shifts at day/night pharmacies.
Doctor Falconer has established research in supercritical fluid applications for selective extraction as well as in engineering advanced nanoparticulate dosage forms based on lipid and polymeric systems. A backbone to this work is the search for green/er technology to replace organic solvent driven material manufacturing processes and the repurposing of carbon dioxide for good.
Faculty of Engineering, Architecture and Information Technology
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Dr. Mingyuan Lu was awarded her PhD from The University of Queensland in Febuary 2014. She has previously completed a Masters of Engineering (June 2009, Materials Science and Engineering, Central South University, China), and a Bachelor of Engineering (June 2007, Materials Science and Engineering, Central south University, China).
Mingyuan has more than 10 years’ experience in research, and during this period she has gained extensive experience with material synthesis, mechanical mechanics, and material characterization including nanoindentation, nanoscratching, atomic force microscopy, electron microscopy, and focused ion beam milling (FIB); additionally,she has experience with structural and compositional analysis techniques (Raman, XRD, EDS, DTA, DSC etc.).
Mingyuan's contributions to the field of mechanical and materials engineering are listed below:
Materials mechanics
(2015-2016) developed a new and successful FIB-machined micro-cantilever bending technique to study the fracture and interfacial properties of the protective intermetallic coatings on magnesium alloys: this technique can be applied to a wide range of materials, sub-surface structures and multilayered structures. Based on this methodology, they later developed a micro-bridge four-point bending technique. This approach can generate a “stable” interfacial delamination, and thus enables quantitative analysis of interfacial toughness.
(2011-2014) developed an indentation-based methodology for assessing the interfacial adhesion of bilayer structures, in a joint project that was funded by WIN Semiconductor Co., Taiwan: the methodology developed has been used to test the reliability of SiN-passivated GaAs semiconductor wafer products.
Materials synthesis and processing
(2015-current) developing a selective laser sintering process for the additive manufacturing of porous and biodegradable scaffolds, made from a biopolymer, for bone tissue engineering: this innovative process can produce scaffolds without the use of an artificial 3D model, and the scaffold has a unique interconnected pore architecture and large surface area making it suitable for bone tissue regeneration applications. The promising outcomes of the preliminary study have elicited strong support from UQ; it has received two generous internal grants (a philanthropic grant for an ECR in the field of engineering, and SEED funding) to enable further study in this field. The scaffolds will shortly be tested in a pre-clinical mouse model (funded by SEEM grant) to study biocompatibility and osteoconductivity.
(2007-2009) developed high-performance refractory metallic materials using powder metallurgy processes: in this project, they discovered the effect of trace TiC, ZrC Carbide nanoparticles on the mechanical properties, sintering behaviour and microstructure of molybdenum alloys.
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
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Luigi Vandi is the Co-Deputy Director for the Centre for Advanced Materials Processing and Manufacturing (AMPAM) and a Senior Lecturer in the School of Mechanical and Mining Engineering. He conducts research in materials science, ranging from advanced manufacturing, in-life performance and end-of life conversion to higher value products. He obtained his PhD on hybrid materials from The University of Queensland, and his MSc from the National Polytechnic Institute of Lorraine in France.
His translational research activities have a strong focus on industry relevant projects. His experience in high-performance composites manufacturing for automotive and aerospace applications, includes working at Ferrari F1 Team in Italy, where he was responsible for the manufacture of carbon fibre suspensions and gearbox of the F1 car. In Australia, he played a key role in developing a patented technology as part of a collaborative project with Airbus and CRC-ACS. He is currently responsible for AMPAM’s sustainability theme and leads research in ‘Biocomposites & Circular Economy’. He has secured over $9 million of funding in this field and delivered high impact sustainable solutions. He is the first author of 4 active patents, in the fields of advanced manufacturing, biocomposites and biopolymers, including the development of novel sustainable biocomposite materials that are marine biodegradable biopolymer.
Luigi is driven by solution-based research, and in particular bringing latest innovations in materials science to the benefits of a future circular economy. His goal is to provide an expertise at the crossover between materials science and sustainable development to address the challenges of today’s linear economy.
Luigi lectured 4th year Aerospace Composites (course AERO4300), and 2nd year Engineering Investigation & Statistical Analysis (course CHEE2010)
