Mawson Lakes Campus (V Building)
Dr Haidari has completed his PhD in the field of Medical Science from the University of South Australia in 2021. His PhD thesis was titled “Development of stimuli-responsive silver nanoparticles delivery system for infected wounds”. Driven by his strong interest in developing wound infection treatment, his research focus is developing a targeted delivery system for antimicrobial agents including silver nanoparticles that are specific to wound pathogens. His recent research is highlighted by developing pH and temperature-responsive hydrogel leading to improved wound infection healing overcoming the current challenges. As a result of his research achievements, he has been the recipient of multiple awards and recognition both... Read more
About me
Dr Haidari has completed his PhD in the field of Medical Science from the University of South Australia in 2021. His PhD thesis was titled “Development of stimuli-responsive silver nanoparticles delivery system for infected wounds”. Driven by his strong interest in developing wound infection treatment, his research focus is developing a targeted delivery system for antimicrobial agents including silver nanoparticles that are specific to wound pathogens. His recent research is highlighted by developing pH and temperature-responsive hydrogel leading to improved wound infection healing overcoming the current challenges. As a result of his research achievements, he has been the recipient of multiple awards and recognition both internally and externally. He has been awarded the AWTRS Young Investigator award for 2021 based on his excellence in research output. Hanifs experience and expertise in the field drive him to establish advanced materials for the treatment of highly complex infections.
About me
Doctor of Philosophy University of South Australia
Bachelor of Biomedical Research (Honours) University of South Australia
Bachelor of Medical Science University of South Australia
The development of innovative, cutting edge technology to improve the treatment of wound infection. Clinically oriented multidisciplinary approach to overcome the current shortfall of wound management by using a localised, safer and efficacous therapy for broad ranges of bacterial related infections.
Research
Excludes commercial-in-confidence projects.
Proposed preclinical studies to determine safety and efficacy of BTM+ oxysalts-Ag using in-vitro and in-vivo testing, Polynovo Ltd, 01/03/2024 - 30/06/2025
In vitro antimicrobial tests of antibacterial rubber compound, Derby Rubber Products Pty Ltd, 18/03/2024 - 20/12/2024
Research
Research outputs for the last seven years are shown below. Some long-standing staff members may have older outputs included. To see earlier years visit ORCID or Scopus
Open access indicates that an output is open access.
Year | Output |
---|---|
2024 |
Open access
|
2023 |
Open access
1
|
2023 |
Open access
|
2023 |
Open access
7
3
|
2023 |
|
2023 |
Open access
4
176
|
2022 |
Open access
37
13
4
|
2022 |
Open access
26
5
|
2021 |
Open access
35
22
43
|
2021 |
Open access
67
45
38
|
2021 |
Open access
66
38
5
|
2020 |
Open access
17
11
|
2020 |
Open access
74
56
4
|
2020 |
Open access
16
13
4
|
2019 |
Open access
27
23
1
|
2017 |
Open access
13
14
3
|
Research
The development of innovative, cutting edge technology to improve the treatment of wound infection. Clinically oriented multidisciplinary approach to overcome the current shortfall of wound management by using a localised, safer and efficacous therapy for broad ranges of bacterial related infections.
External engagement & recognition
Organisation | Country |
---|---|
Central Adelaide Local Health Network Incorporated | AUSTRALIA |
Flinders University | AUSTRALIA |
Pak Austria Fachhochschule | PAKISTAN |
RMIT University | AUSTRALIA |
University of Adelaide | AUSTRALIA |
University of Canberra | AUSTRALIA |
University of Granada | SPAIN |
University of New South Wales | AUSTRALIA |
University of South Australia | AUSTRALIA |
Women's and Children's Hospital | JAPAN |