曼彻斯特城市大学PhD Position in Engineering, biological and environmental benefits of visible-light activated antimicrobial photocatalytic coatings for water treatment申请条件要求-申请方
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曼彻斯特城市大学
PhD直招介绍
About the Project
Project advert
This PhD project focuses on developing new antimicrobial coatings for water treatment.
Water scarcity and contamination with pathogens are critical issues, with over 2 billion people lacking access to safe drinking water. In the UK alone, severe droughts could leave 1 in 4 households without water by 2030. Traditional water treatment infrastructure is often expensive and difficult to manage, especially in developing countries. An alternative is to use antimicrobial materials that can actively kill microorganisms in water. Photocatalysis, a chemical process initiated by light-activation, offers a sustainable and effective method for water decontamination.
This project will seek to develop and optimize new photocatalytic coatings for water treatment that can remove a wide range of pollutants, including pathogenic microorganisms and toxins.
The successful candidate will gain significant interdisciplinary skills including microbiology, surface engineering and analytical chemistry, joining our vibrant, growing doctoral community in the new Faculty of Science and Engineering £117M Dalton Building. The project will have access to cutting-edge research facilities and laboratory spaces.
Project aims and objectives
The aim of this project is to assess the role of visible-light activated photocatalysts in sustainable water treatment, particularly in removing microorganisms and contaminants of human and environmental concern.
Objective 1: Develop and optimise photocatalytic coatings for use in localised water treatment, including delivery systems and physical characterisation of the materials
Objective 2: Assess the antimicrobial activity of the coatings on multiple species of bacteria, algae, cyanobacteria, and pathogens relevant to water contamination.
Objective 3: Extend development, optimisation and testing to non-microbial contaminants, including cyanobacterial-produced toxins, geosmin and pharmaceuticals.
Objective 4: Determine the mechanisms by which photocatalytic coatings inhibit or kill cells, stress response, bacteriolytic, bacteriostatic or bactericidal, and ROS production.
曼彻斯特城市大学 PhD Position in Engineering, biological and environmental benefits of visible-light activated antimicrobial photocatalytic coatings for water treatment项目有没有奖学金,是不是全奖Phd招生,下面我们一起看一下【大学名称】Phd的奖学金资助情况
项目资助情况
The student will be in receipt of a stipend payment; the Research Council minimum rate (set by UKRI) £20,780 for 2025/26.
Home and Overseas students can apply. Home fees are covered. Eligible overseas students will need to make up the difference in tuition fee funding.
曼彻斯特城市大学Phd申请条件和要求都有哪些?PhD Position in Engineering, biological and environmental benefits of visible-light activated antimicrobial photocatalytic coatings for water treatment项目是不是全奖?有没有奖学金?下面我们一起看一下曼彻斯特城市大学申请Phd直招需要具备哪些条件和要求,以及托福、雅思语言成绩要到多少才能申请。
申请要求
The qualifications, skills, knowledge and experience applicants should have for this project, in addition to our standard entry requirements( https://www.mmu.ac.uk/study/postgraduate/research-study/phd/how-to-apply ).
The ideal candidate will have a background in microbiology or biology. Desirable skills include:
Microbiological techniques, specifically the culture of microorganisms
Ability to conduct literature searches and critically evaluate scientific information
Ability to design and carry out experiments, and collect, analyse, and interpret resulting datasets using statistical techniques
Excellent record keeping, and ability to keep accurate records of daily activity in a lab book
Ability to work both as a team and individually with minimal supervision.
Other beneficial experience would include working with algae, surface/coatings engineering (e.g. magnetron sputtering), or working on interdisciplinary projects.
报名方式
申请链接
招生人信息
James Redfern
邮箱:J.Redfern@mmu.ac.uk
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