Deakin University


At Deakin University our researchers are making a positive impact on the lives and well-being of communities — not just in Australia, but around the world — through exceptional innovation and research.

Using our industry, government and institutional networks, we are building our global research footprint across four key themes, supported by four world-class Research Institutes and 13 Strategic Research Centres.

Improving health and wellbeing

Covering the broad spectrum of health, our research is helping to improve the lives and wellbeing of people and communities on a global scale. From medicine, ageing, chronic illness and disability, to nutrition, physical activity and child health, we're continually striving to uncover new frontiers through persistent curiosity and ground-breaking research.

Designing smarter technologies

Deakin is a world leader in carbon and short fibre, metals and steel research, electromaterials, corrosion, nanotechnology, composite materials and energy storage systems. Our open access carbon fibre/composite research facility, Carbon Nexus, is supporting the transition to advanced manufacturing, while engineering and IT researchers are providing robotics, simulation modelling and haptics solutions to clients across many sectors.

Enabling a sustainable world

Deakin leads one of the world’s most prestigious environmental and marine science research programs. Our scientists are helping to protect Australia’s vulnerable flora and fauna from disease, from rapid development and from climate change. In the agricultural sphere, teams of experts are providing water management advice and designing smart solutions to global challenges such as food security, sustainable agriculture and environmental sustainability.

Advancing society and culture

Our research is helping to advance understanding of intercultural relations, politics, migration, racism and governance. In education, researchers are cultivating society and culture by informing policy across all educational sectors, with an emphasis on developing partnerships and working toward achieving equity and social justice. Our creative arts researchers are also breaking new ground, often at the intersection between research, art and technology.

Deakin University retains sole responsibility for content © 2017 Deakin University.

1 November 2017 - 31 October 2018

Region: Global
Subject/journal group: All

The table to the right includes counts of all research outputs for Deakin University published between 1 November 2017 - 31 October 2018 which are tracked by the Nature Index.

Hover over the donut graph to view the FC output for each subject. Below, the same research outputs are grouped by subject. Click on the subject to drill-down into a list of articles organized by journal, and then by title.

Note: Articles may be assigned to more than one subject area.

59 13.97

Outputs by subject (FC)

Subject AC FC
Chemistry 26 7.80
Life Sciences 17 2.16
2 0.23
1 0.06
5 0.32
Social environment mediates cancer progression in Drosophila
A selective inhibitor of ceramide synthase 1 reveals a novel role in fat metabolism
Epigenetic dysregulation of naive CD4+ T-cell activation genes in childhood food allergy
Controlled synthesis of highly-branched plasmonic gold nanoparticles through peptoid engineering
Small tumor necrosis factor receptor biologics inhibit the tumor necrosis factor-p38 signalling axis and inflammation
2 0.13
2 0.35
3 0.87
1 0.06
1 0.14
Physical Sciences 24 5.72
Earth & Environmental Sciences 2 0.09

Highlight of the month

Designer liquids boost battery performance

© Bloomberg/Getty

© Bloomberg/Getty

A novel, salt-based electrolyte developed by Deakin University researchers could help realize next-generation batteries that are safer and store more energy than today’s lithium-ion cells.

Lithium metal batteries could replace lithium-ion ones in many applications if scientists can improve the batteries’ liquid electrolyte. To maximize battery lifetime and performance, researchers are aiming to develop electrolytes with very high lithium salt contents. They are also seeking safer alternatives to conventional volatile organic liquid electrolytes, which can cause overheated batteries to explode.

Ionic liquids are non-volatile, non-flammable, alternative electrolytes for lithium metal batteries. But they typically become viscous at high lithium salt concentrations, which lowers their conductivity.

Deakin University researchers have discovered an ionic liquid electrolyte that overcomes the viscosity problem, so that it retains an excellent conductivity even at super-concentrated lithium salt conditions. The result could inspire a new class of electrolyte for lithium batteries.

Supported content

  1. Chemical Communications 54, 3660–3663 (2018). doi: 10.1039/c8cc00531a

View the article on the Nature Index

See more research highlights from Deakin University

More research highlights from Deakin University

Top articles by Altmetric score in current window

Convergence of marine megafauna movement patterns in coastal and open oceans

Proceedings of the National Academy of Sciences of the United States of America


Child first language and adult second language are both tied to general-purpose learning systems

Proceedings of the National Academy of Sciences of the United States of America


1 November 2017 - 31 October 2018

International vs. domestic collaboration by FC

  • 43.82% Domestic
  • 56.18% International

Note: Hover over the graph to view the percentage of collaboration.

Note: Collaboration is determined by the fractional count (FC), which is listed in parentheses.

Affiliated joint institutions and consortia

Return to institution outputs