All articles by James Mitchell Crow
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FeatureFast charging supercapacitors
Rapid development of the alternative energy storage technology to rechargeable batteries is already having real world impact. James Mitchell Crow talks to the scientists working on upping their performance
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FeatureIlluminating antiaromaticity
Aromaticity’s dark alter-ego is ready to emerge into the sunlight. James Mitchell Crow talks to the scientists trying to exploit the instability
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FeatureEditing polymer backbones
Changing the chemical makeup of a polymer backbone could revolutionise how we make, use and even recycle plastics. James Mitchell Crow reports
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FeatureThe mechanical side of bonding
Synthetic chemists are finally mastering the assembly of interlocked molecules held together by the mechanical bond, find James Mitchell Crow
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FeatureThe liquid metals giving catalysis a new phase
They’re not like solid metals or like other liquids, but scientists are starting to understand and exploit them. James Mitchell Crow reports
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FeatureBuilding better batteries
The next generation of battery technologies might pack significantly more power into the electric cars and mobile devices of the future. James Mitchell Crow reports
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FeatureThe robots revolutionising chemistry
Researchers working with automated systems are pushing the boundaries of what chemists can achieve in the lab, reports James Mitchell Crow
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FeatureWhen will molecular electronics make the connection?
Computer chips based on single molecules may remain a work in progress, finds James Mitchell Crow but the technologies developed along the way are being used by chemists to explore their reactions
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FeatureA lightning burst of chemistry
Trying to understand the chemistry that occurs around immensely powerful but short-lived lightning bolts is a feat in itself. James Mitchell Crow looks for a flash of inspiration
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FeatureThe bioorthogonal revolution
A set of reactions operating silently inside live cells or whole animals are lighting up chemical biology and inspiring new medicines, James Mitchell Crow finds
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FeatureWiring up organic synthesis
James Mitchell Crow talks to the organic chemists using electrochemistry to add or remove electrons to their molecules at the flick of a switch
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FeatureKeeping cell therapy under wraps
Materials to safely encapsulate transplanted cells for could enable a revolution in the treatment of diabetes and a wide range of other diseases. James Mitchell Crow reports
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FeatureSupermetals versus superbugs
With pathogenic bacteria rapidly overcoming our arsenal of organic antibiotics, James Mitchell Crow asks if it is time to revisit metal-based antimicrobials
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FeatureSustainable solar power
Getting energy from the sun isn’t renewable until the panels are recyclable. James Mitchell Crow talks to the scientists making it happen
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FeatureAmmonia synthesis goes electric
James Mitchell Crow finds that the outlook for renewables-powered electrochemical ammonia production is beginning to brighten
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FeatureMetalloenzyme mastery
There are natural metalloenzymes that make difficult chemistry look easy. James Mitchell Crow talks to the bioinorganic chemists figuring out how to copy them
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FeatureSustainable lab buildings
After a decade of grassroots growth, the laboratory sustainability movement is bursting into the mainstream finds James Mitchell Crow
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FeatureCan smart biomaterials deliver?
James Mitchell Crow explores the next generation of therapeutic biomaterials, which aim to interact dynamically with the body and help to control diabetes and heal wounds
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FeatureHydrogen storage gets real
As production costs fall and demand is poised to rocket, James Mitchell Crow finds the hydrogen economy is finally ready for take-off – as long as we can find ways to store it
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FeatureThere’s something about boron
Boron’s chemistry is as much defined by what it isn’t – carbon, or a metal – as by what it is. Recent years have started to fix this misconception, as James Mitchell Crow reports