Person

Mr Daniel Wilson

One of the University's growing number of Sustainability Enthusiasts. Find out more about the initiative here.

Keywords: 
Workplace engagement, Technology, Sustainability enthusiast, Environment, Chemistry

Person

Dr Stephen Boult

Hydrology and hydrochemistry, is studied at all scales from laboratory simulation where conditions are wholly controlled to field scale where, though uncontrolled, conditions are monitored.  This work has been developed through the founding of a University spin out company Intelisys Ltd, which develops commercial monitoring equipment.

Keywords: 
Water, Chemistry, Hydrochemistry, Business, Instrumentation, Monitoring, Carbon, Environment, Climate change, Climate, Networks, Evaluation, Pollution, Governance, Sustainability, Teaching, Education

Person

Prof Sabine Flitsch

Research interests:

Glycosciences, Biocatalysis, Monooxygenases, Protein-Ligand Interactions

Keywords: 
Biocatalysis, Chemicals, Chemistry, Biology, Health, Food

Person

Prof Roy Wogelius

Research interests:

-  Mineral Surface Chemistry

- Reaction Kinetics

- Aqueous Geochemistry

- Environmental Mineralogy

Keywords: 
Geology, Chemistry, Spectroscopy, Environment, Minerals, Water, Kinetics

Person

Dr Peter Quayle

Varied lines of research have been investigated whilst at Manchester including the use of transition metal carbene complexes and organostannanes in synthesis, the synthesis of hydrophilic polymers, and the development of "clean oxidation" processes using hydrogen peroxide. Recent interests include the development of more efficient catalysts for atom transfer reactions and their use in natural product synthesis.

Keywords: 
Materials, Metals, Chemistry, Research methods, Polymers, Biology, Environment, Sustainability, Teaching, Education

Person

Prof Peter Budd

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.

Keywords: 
Polymers, Materials, Chemistry, Biochemistry, Energy efficiency, Sustainability, Energy, Renewable energy, Energy supply, Climate change, Climate, Emissions, Carbon, Management, Energy storage, Fuel cells, Hydrogen, Graphene, Technology, Teaching, Education

Person

Dr Megan Jobson

Megan has industrial experience as a process engineer with Unilever. Her research aims to develop design methodologies for separation and reactive separation processes that are inherently efficient, in terms of energy demand, raw material consumption, waste production and generation of emissions.

Keywords: 
Engineering, Process engineering, Energy efficiency, Energy, Sustainability, Chemistry, Energy supply, Materials, Consumption, Waste, Emissions, Carbon, Climate, Retrofit, Buildings, Teaching, Education

Person

Prof Michael Turner

My principal research interests concern the synthesis of novel conjugated molecules, particularly conjugated liquid crystals and conjugated polymers, and in using these novel molecules in organics electronic and electrooptical devices such as organic transistors, organic light emitting diodes, sensors and solar cells.

Keywords: 
Materials, Engineering, Monitoring, Solar energy, Energy storage, Renewable energy, Chemistry

Person

Dr Neil Burton

Computational chemistry is now widely applicable in a variety of biological, materials and chemical research areas. Computer simulation of the dynamics and electronic structures of chemical reactions and complex molecular systems helps us to understand these processes and provide a valuable complement to experiment.

Keywords: 
Chemistry, Computer science, Environment, Nuclear waste, Energy storage, Energy, Metals, Sustainability, Teaching, Education

Person

Dr Nicholas Bryan

The main research area of my group is Environmental Chemistry, and in particular, the interaction of radionuclides with natural systems. Current projects involve the study of the interaction of these elements with natural colloids, including humic substances. Colloids have a high affinity for many pollutants, and can act as a vector for their migration in the environment. Lab experiments are used to study sorption and desorption mechanisms, and are backed up by work involving real samples from the field.

Keywords: 
Environment, Chemistry, Metals, Pollution, Nuclear energy, Radioactivity, Energy, Soil, Water, Geology, Waste, Impact, Nuclear waste, Sustainability, Teaching, Education

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