All articles by Kira Welter
-
Research
Electrochemical series for materials makes predicting oxidation states easy
Machine-learning trained model could open up new opportunities in materials discovery
-
Research
Chemical ‘waves’ used to encode words as Morse code
A controllable, oscillating reaction has been used to generate waves of different forms for information transduction
-
Research
Harnessing carbene reactivity with light
Two-step photocatalytic strategy produces metal carbenes easily and safely
-
Research
‘Late-stage saturation’ could improve drugs' effectiveness
Approach turns flat aromatic structures into three-dimensional saturated molecules with improved medicinal properties
-
Research
Non-antibiotics with antibacterial activity could help in the fight against antimicrobial resistance
New analysis shows that non-antibiotic drugs kill bacteria through mechanisms that differ from those of conventional antibiotics
-
Research
Answer found for why like-charged particles sometimes attract each other
It’s not just opposites that always attract as new research confirms an observation that has puzzled scientists for over 80 years
-
Research
Watching molecular ions transform in real time
A new method that combines ultrafast electron diffraction with multiphoton ionisation has captured the dynamics of a cation in the gas phase for the first time
-
Research
Fleeting phenomenon of water autoionisation pinned down by neural network simulations
Modelling sheds light on a process that has been known for over a century but was tricky to understand
-
Research
Chemical oscillator’s tick-tock action catalyses reaction regular as clockwork
Small molecule oscillator can catalyse Knoevenagel condensation periodically without affecting the oscillation
-
Research
Photophysical oxidation plays newly discovered role in atmospheric chemistry
Process is likely to be a general mechanism in tropospheric chemistry, especially at low altitudes
-
Research
Metallic hydrogen and diamonds may have been made from plastics
A combination of x-ray diffraction experiments and simulations suggests that an intense laser can transform polystyrene
-
Research
Recycling wind turbine blades by breaking them down into their constituent chemicals
Thermoset plastics that normally end up in landfill can be selectively depolymerised using a ruthenium catalyst
-
Research
Mechanochemically accelerated sublimations used to separate chiral molecules
New technique combines ball milling with NMR to monitor sublimations in real time
-
Research
New example of molecular chirality discovered
The first instance of a molecule in which an oxygen atom is the sole stereocentre has been reported
-
Research
New theory provides answers to why metals have the structures that they do
The simple concept shows that a metal’s structure results from chemical interactions between localised electrons, challenging the traditional free electron gas model
-
Research
Molecular motor running on electricity mimics biological motors
The nanomachine is based on a [3]catenane and isn’t operated through a microscope tip, unlike others
-
Research
Fully automated synthesis robot sets new record in stereospecific carbon–carbon bond formation
The robotic platform can make six carbon–carbon bonds without human guidance
-
Research
Mystery of speedy proton hopping in water unravelled
X-ray spectroscopy helps scientists understand how protons move in water
-
Research
Benzene’s bond lengths corrected
Sophisticated spectroscopic method shows that previously reported values were out by several milliangstroms
-
News
German firms raided over dual use chemicals sent to Russia
Companies have reportedly been exporting substances that could be turned into chemical weapons for several years without a permit