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We carry out fundamental research on polymers and their interactions with small molecules. We are developing novel materials and energy-efficient processes for molecular separations and transformations.
POLYMERS OF INTRINSIC MICROPOROSITY (PIMs): In Manchester, we have invented a novel range of polymers, which behave like molecular sieves because of their rigid, contorted macromolecular structures. PIMs include both insoluble networks and soluble polymers that can be processed into membranes or other useful forms. They can be designed with built-in catalytic groups or other functionalities, so they can function as self-supported catalysts or highly selective adsorbents.
MEMBRANES: Thin films, which possess the ability to discriminate between and selectively transport molecules, have considerable potential for use in industrial processes and as components of sensors and other devices. Membranes formed from PIMs show exceptional potential for gas and liquid separations. We are also developing graphene-based membranes for a variety of applications.
MATERIALS FOR ENERGY APPLICATIONS: A major challenge is to ensure a clean and sustainable energy future. We are developing materials for carbon capture, in order to help tackle the problem of global warming. We are exploring novel polymer electrolytes for fuel cells and are carrying out research on novel materials for hydrogen storage.
POLYELECTROLYTES: Polyelectrolytes are polymers that posess many ionizable group. In collaboration with the Schools of Materials and Dentistry, we are investigating novel polyelectrolytes for application in tissue engineering.
POLYMERS OF INTRINSIC MICROPOROSITY (PIMs): In Manchester, we have invented a novel range of polymers, which behave like molecular sieves because of their rigid, contorted macromolecular structures. PIMs include both insoluble networks and soluble polymers that can be processed into membranes or other useful forms. They can be designed with built-in catalytic groups or other functionalities, so they can function as self-supported catalysts or highly selective adsorbents.
MEMBRANES: Thin films, which possess the ability to discriminate between and selectively transport molecules, have considerable potential for use in industrial processes and as components of sensors and other devices. Membranes formed from PIMs show exceptional potential for gas and liquid separations. We are also developing graphene-based membranes for a variety of applications.
MATERIALS FOR ENERGY APPLICATIONS: A major challenge is to ensure a clean and sustainable energy future. We are developing materials for carbon capture, in order to help tackle the problem of global warming. We are exploring novel polymer electrolytes for fuel cells and are carrying out research on novel materials for hydrogen storage.
POLYELECTROLYTES: Polyelectrolytes are polymers that posess many ionizable group. In collaboration with the Schools of Materials and Dentistry, we are investigating novel polyelectrolytes for application in tissue engineering.
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Journal of Membrane Sciencepp.122652, (2024)
Mohd Zamidi Ahmad,Edidiong D. Asuquo,Sandra Rico-Martinez, Mustafa Alshurafa, Vicente Orts-Mercadillo, Anirudh Devarajan,Angel E. Lozano,Andrew B. Foster,Peter M. Budd
Farnaz Emamverdi,Jieyang Huang, Negar Mosane Razavi,Michael J. Bojdys,Andrew B. Foster,Peter M. Budd, Martin Boehning, Andreas Schoenhals
Angewandte Chemie (International ed. in English)no. 1 (2024): e202316356-e202316356
Sulaiman Aloraini,Michael Mathias, Jessica Crone, Kurtis Bryce,Ming Yu, Richard A Kirk,Mohd Zamidi Ahmad,Edidiong D Asuquo,Sandra Rico-Martínez, Alexey V Volkov,Andrew B Foster,Peter M Budd
JOURNAL OF MEMBRANE SCIENCE (2023): 121697-121697
SENSORS AND ACTUATORS B-CHEMICAL (2023): 134297-134297
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