J
Jennifer R. Dodson
Researcher at University of York
Publications - 22
Citations - 1157
Jennifer R. Dodson is an academic researcher from University of York. The author has contributed to research in topics: Catalysis & Mesoporous material. The author has an hindex of 13, co-authored 22 publications receiving 953 citations. Previous affiliations of Jennifer R. Dodson include Federal University of Rio de Janeiro.
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Journal ArticleDOI
Drivers for global agricultural land use change: The nexus of diet, population, yield and bioenergy
Peter Alexander,Peter Alexander,Mark Rounsevell,Claudia Dislich,Claudia Dislich,Jennifer R. Dodson,Kerstin Engström,Dominic Moran +7 more
TL;DR: In this paper, the authors used country-level panel data (1961-2011) to allocate the land areas used to produce food for human consumption, waste and biofuels, and attribute the food production area changes to diet, population and yields drivers.
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Bio-derived materials as a green route for precious & critical metal recovery and re-use
Jennifer R. Dodson,Helen L. Parker,Andrea Muñoz García,Alexandra Hicken,Kaana Asemave,Thomas J. Farmer,He He,James H. Clark,Andrew J. Hunt +8 more
TL;DR: An overview of the current research in the area of critical and precious metals recovery using biosorption, its application to real-life wastes and the potential uses for these metal-loaded materials for catalysis or functional materials can be found in this paper.
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Elemental sustainability: Towards the total recovery of scarce metals
TL;DR: In this article, a multi-disciplinary blend of chemistry, extractive metallurgy, engineering and biotechnology is required to realize this ambition, and the authors propose a method to turn a waste into a resource.
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Use of green chemical technologies in an integrated biorefinery
Vitaly Budarin,Peter S. Shuttleworth,Jennifer R. Dodson,Andrew J. Hunt,Brigid Lanigan,Ray Marriott,Kris J. Milkowski,Ashley J. Wilson,Simon W. Breeden,Jiajun Fan,Emily H. K. Sin,James H. Clark +11 more
TL;DR: In this article, a new concept is demonstrated for an integrated close to zero waste wheat straw biorefinery combining two novel green technologies, CO2 extraction and low temperature microwave pyrolysis, to produce a variety of products, including energy and CO2 which can be internally recycled to sustain the processes.
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Supported palladium nanoparticles synthesized by living plants as a catalyst for Suzuki-Miyaura reactions.
Helen L. Parker,Elizabeth L. Rylott,Andrew J. Hunt,Jennifer R. Dodson,Andrew F. Taylor,Neil C. Bruce,James H. Clark +6 more
TL;DR: The first use of living plants to recover palladium and produce catalytically active palladium nanoparticles is reported, which eliminates the necessity for nanoparticle extraction from the plant and reduces the number of production steps compared to traditional catalyst palladium on carbon.