PhD Scholarship in metal organic framework-based membrane for nano/microplastics removal
RMIT University
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Value and duration
Living allowance: $32,841 per annum for 3 years with a possible 6-month extension
Tuition fee: Tuition fee waiver for international students
Health Insurance: Single Overseas Student Health Cover (OSHC)
Number of scholarships
One scholarship available.
Eligibility
To be eligible for this scholarship you must:
- have a first-class Honours or H1 or equivalent degree in a relevant discipline of engineering/science
- be an Australian citizen, New Zealand Citizen or an Australian permanent resident or an international student meeting the minimum English language requirements
- meet RMIT’s entry requirements for the PhD by research degree
How to apply
To apply, please submit the following documents to Dr Biplob Pramanik ([email protected] ) directly.
- A detailed CV clearly outlining your experience in developing distributed systems/applications; also important to list any publications, awards, and relevant professional experience
- A Bachelor’s degree with First Class Honors in Chemistry/Chemical Engineering/Environmental Engineering
- Candidates with a Master’s degree in membrane fabrication will get preference.
Opening date
Applications are now open
Closing date
30th November 2022
Further information
The aim of this project is to understand the fundamental science governing the removal of nano/microplastics from wastewater by developing an innovative dually charged metal organic framework based nanocomposite ultrafiltration membrane. The project expects to lead to a breakthrough in our scientific understanding of how nano/microplastics and other pollutants can be efficiently removed from wastewater using membranes.
Contact
Dr Biplob Pramanik
Email: [email protected]
Living allowance: $32,841 per annum for 3 years with a possible 6-month extension
Tuition fee: Tuition fee waiver for international students
Health Insurance: Single Overseas Student Health Cover (OSHC)
Living allowance: $32,841 per annum for 3 years with a possible 6-month extension
Tuition fee: Tuition fee waiver for international students
Health Insurance: Single Overseas Student Health Cover (OSHC)
One scholarship available.
One scholarship available.
To be eligible for this scholarship you must:
- have a first-class Honours or H1 or equivalent degree in a relevant discipline of engineering/science
- be an Australian citizen, New Zealand Citizen or an Australian permanent resident or an international student meeting the minimum English language requirements
- meet RMIT’s entry requirements for the PhD by research degree
To be eligible for this scholarship you must:
- have a first-class Honours or H1 or equivalent degree in a relevant discipline of engineering/science
- be an Australian citizen, New Zealand Citizen or an Australian permanent resident or an international student meeting the minimum English language requirements
- meet RMIT’s entry requirements for the PhD by research degree
To apply, please submit the following documents to Dr Biplob Pramanik ([email protected] ) directly.
- A detailed CV clearly outlining your experience in developing distributed systems/applications; also important to list any publications, awards, and relevant professional experience
- A Bachelor’s degree with First Class Honors in Chemistry/Chemical Engineering/Environmental Engineering
- Candidates with a Master’s degree in membrane fabrication will get preference.
To apply, please submit the following documents to Dr Biplob Pramanik ([email protected] ) directly.
- A detailed CV clearly outlining your experience in developing distributed systems/applications; also important to list any publications, awards, and relevant professional experience
- A Bachelor’s degree with First Class Honors in Chemistry/Chemical Engineering/Environmental Engineering
- Candidates with a Master’s degree in membrane fabrication will get preference.
Applications are now open
Applications are now open
30th November 2022
30th November 2022
The aim of this project is to understand the fundamental science governing the removal of nano/microplastics from wastewater by developing an innovative dually charged metal organic framework based nanocomposite ultrafiltration membrane. The project expects to lead to a breakthrough in our scientific understanding of how nano/microplastics and other pollutants can be efficiently removed from wastewater using membranes.
The aim of this project is to understand the fundamental science governing the removal of nano/microplastics from wastewater by developing an innovative dually charged metal organic framework based nanocomposite ultrafiltration membrane. The project expects to lead to a breakthrough in our scientific understanding of how nano/microplastics and other pollutants can be efficiently removed from wastewater using membranes.
Dr Biplob Pramanik
Email: [email protected]
Dr Biplob Pramanik
Email: [email protected]
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