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Hydrogen bonding explains MOF's shock-absorption abilities | Research

By Fernando Gomollón-Bel2021-04-23T08:30:00+01:00
A new study has unveiled the molecular mechanisms that explain why porous materials can absorb violent shocks. The work also provides clues on how it might be possible to design new materials to withstand heavy impacts.
Porous materials are widely known for their applications in gas adsorption and filtration. But, for decades, scientists have also been interested in their shock-absorbing potential. Researchers from Belgium and the UK were studying this shock-absorption behaviour in zeolitic imidazolate frameworks (ZIFs), a type of metal-organic frameworks with structural and topological properties that are characteristic of zeolites. ‘Originally, they were not created for shock absorption,’ explains Yueting Sun from the University of Birmingham, UK, co-first author of the paper. ‘However, this was a known application in zeolites and, given their similarities, the connection seemed pretty evident.’ ....

France General , United Kingdom , Xavier Coudert , Sven Rogge , Yueting Sun , Dan Zhao , National University Of Singapore , University Of Birmingham , Ghent University , Molecular Modelling , National University , பிரான்ஸ் ஜநரல் , ஒன்றுபட்டது கிஂக்டம் , ஸ்வெந் முரட்டுத்தனம் , டான் ழோ , தேசிய பல்கலைக்கழகம் ஆஃப் சிங்கப்பூர் , பல்கலைக்கழகம் ஆஃப் பர்மிங்காம் , கெஂட் பல்கலைக்கழகம் , மூலக்கூறு மாடலிங் , தேசிய பல்கலைக்கழகம் ,

Qubits Comprised Of Holes Could Be The Trick To Build Faster, Larger Quantum Computers

Qubits Comprised Of Holes Could Be The Trick To Build Faster, Larger Quantum Computers
A new study indicates holes the solution to operational speed/coherence trade-off, potential scaling up of qubits to a mini-quantum computer.
Quantum computers are predicted to be much more powerful and functional than today’s ‘classical’ computers.
One way to make a quantum bit is to use the ‘spin’ of an electron, which can point either up or down. To make quantum computers as fast and power-efficient as possible we would like to operate them using only electric fields, which are applied using ordinary electrodes.
Although spin does not ordinarily ‘talk’ to electric fields, in some materials spins can interact with electric fields indirectly, and these are some of the hottest materials currently studied in quantum computing. ....

United Kingdom , Dimi Culcer , Sven Rogge , Joe Salfi , Energy Electronic Technologies , Centre Of Excellence , University Of British Columbia , University Of British Columbia Vancouver , Communication Technology , Australian Research Council Centre Of Excellence , Centre For Quantum Computing , Prof Dimi Culcer , Prof Sven Rogge , Quantum Computing , Prof Joe Salfi , Quantum Information , Australian Research Council Centre , Future Low Energy Electronic Technologies , Quantum Computation , British Columbia , ஒன்றுபட்டது கிஂக்டம் , ஸ்வெந் முரட்டுத்தனம் , ஓஹோ சல்பி , ஆற்றல் மின்னணு தொழில்நுட்பங்கள் , மையம் ஆஃப் சிறப்பானது , பல்கலைக்கழகம் ஆஃப் பிரிட்டிஷ் கொலம்பியா ,

UNSW Scientia Professor appointed President of Australian Institute of Physics

UNSW Sydney Scientia Professor Sven Rogge has been elected President of the Australian Institute of Physics (AIP). The AIP is dedicated to promoting the. ....

Sven Rogge , Science School Of Physics , Centre For Quantum Computation , Communication Technology , Australian Institute Of Physics , Scientia Professor Sven Rogge , Australian Institute , Quantum Computation , Kavli Institute , Quantum Nano Science , Institute Of Physics , ஸ்வெந் முரட்டுத்தனம் , அறிவியல் பள்ளி ஆஃப் இயற்பியல் , மையம் க்கு குவாண்டம் கணக்கீடு , தொடர்பு தொழில்நுட்பம் , ஆஸ்திரேலிய நிறுவனம் ஆஃப் இயற்பியல் , அறிவியல் ப்ரொஃபெஸர் ஸ்வெந் முரட்டுத்தனம் , ஆஸ்திரேலிய நிறுவனம் , குவாண்டம் கணக்கீடு , கவிளி நிறுவனம் , குவாண்டம் நானோ அறிவியல் , நிறுவனம் ஆஃப் இயற்பியல் ,