STORMing towards a better understanding of protein corona formation on nanoparticles (NPs), to enable better design of NPs for biomedical applications.
Jodie Haigh
Steps to Remedy In Vitro–In Vivo Discrepancies: Nanoparticle Interactions with Blood and Lymph
Interactions of nanoparticles with their surroundings, both in vitro and in vivo, are different simply because the environments are different. As such, the first insight towards answering complex questions associated with in vitro-in vivo translation are provided.
3D Cell Culture for Biological-Relevant, Neuroscientific, In Vitro Environments
The colonization of a 3D engineered scaffold is investigated, in the perspective of producing realistic 3D environments for cell culture
Supportive Soft Tissue Manufacture
A manufacturing method is unveiled that uses a supportive material that is self-healing, and enables the production of soft materials in a supported and suspended manner.
Crowded Work: Enzyme Kinetics in an Organelle-Like Environment
For the first time, the activity of an enzyme in a crowded environment vs a nonencapsulated enzyme is studied.
One-Pot Solvothermal Synthesis of Graphene Oxide Quantum Dots
A facile one-pot solvothermal method that allows selective synthesis of pure graphene oxide (GO) and pure GO quantum dots.
Nanocomposite Hydrogels for Load-bearing and Electroactive Tissue Replacement
Recent advances in the fabrication and application of nanocomposite hydrogels for load-bearing and electroactive tissue replacement.
Heart of Gold: Bioink with Gold Nanorods for 3D Printed Cardiac Constructs
Towards customizable and biomimetic 3D-printed cardiac construct with contractile properties for drug testing.
Scientist Alan Mackay-Sim: Australian of the Year 2017
Each year the Australian of the Year award recognizes and celebrates the achievements and contributions of eminent Australians. This year a lead stem cell scientist was recognized.
Microscale Additive Manufacturing of Metals
A recent comprehensive Progress Report highlights recent innovations in metal AM towards micro- and submicro-scale resolution.