H2 Molecules in Space: 2 and 3 Body Collisions H3+
A brief description to why it is problematic to make H2 in space, and how H3+ molecules are formed
More details | Watch nowPart 3: Selective Microwave Heating of a Polar Reaction Substrate
In part three of this three part series, FSU chemist Dr. Gregory Dudley, summarizes the conclusions of ongoing FSU microwave chemistry research. He discusses the implications and future prospects of microwave research, addressing how other labs could....
More details | Watch nowPart 2: Selective Microwave Heating of an Ionic Reagent
In part two of this three part series, FSU chemist Dr. Gregory Dudley, discusses in depth the microwave chemistry research he's conducted in collaboration with FSU colleague Dr. Al Stiegman. The research outlines Friedel-Crafts substitutions, Aryl-Cl....
More details | Watch nowPart 1: Selective Microwave Heating Design and Theory
In part one of this three part series, FSU chemist Dr. Gregory Dudley, puts forth the controversy that surrounds microwave chemistry research, he outlines physical theory of microwave chemistry, and discusses the research teams central design hypothe....
More details | Watch nowMicrowave Chemistry Introduction: Your dial goes up to 11
This is the introduction to a three part research presentation on microwave chemistry given by FSU chemist Dr. Gregory Dudley. Dudley reports on joint FSU research surrounding microwave chemistry and its previously unknown potential in lab applicatio....
More details | Watch nowHarnessing the light fantastic
Professor Nick Terrill, principal beamline scientist at Diamond Light Source, explains how intense light produced at the UK's national synchrotron science facility in Oxfordshire is being used to examine colour changing polymers and research the next....
More details | Watch nowBio-fuels and solar energy
A comparison of bio-fuels and solar energy. Examples include algae-based oil and solar panels.
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