Chemistry To Go Boldly Into Virtual World

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chemistry

via Chemistry World : Gaming-style tech is putting the fun into fundamental molecular simulations

Chemists have been building molecular models for centuries. It’s a crucial exercise in understanding the interactions that take place and are otherwise invisible. But there’s no denying drawing structures or fiddling with Molymod lacks the excitement and spectacle of a live experiment. Now, this traditionally dull activity could be about to get a new lease of life, thanks to advances in a technology more often associated with gaming: virtual reality (VR).

In David Glowacki’s lab at the university of Bristol, UK, molecules appear right in front of you in all their moving, three-dimensional glory. You can push, prod and even wrestle with them.

Glowacki has spent five years perfecting the Nano Simbox VR system, which gives those who don Occulus Rift-style headsets an experience of total immersion in the molecular world. Armed with ‘atomic tweezers’ one can attempt to tie a wriggling peptide chain into a knot, or manipulate a drug molecule so that it docks with the active site of a receptor.

Glowacki decided to create Nano Simbox after he developed an interest in different ways of presenting scientific data. An earlier project, the science meets art installation Danceroom Spectroscopy, allowed visitors to manipulate a simulated atomic world by capturing their movement with 3D cameras and incorporating it into force field calculations. A few years on, he has taken the concept further.

The Nano Simbox simulations are designed to encourage collaboration, as up to 10 people can use the system at once. ‘I’ve already started taking my tutorial groups in it,’ Glowacki says. ‘When I need to teach them stuff we do a 15-minute lesson in there. That’s made me pretty popular.’

The potential of VR extends far beyond impressing undergraduates. Glowacki has high hopes it will be useful as a research tool. His own group is using the Nano Simbox to simulate the scattering of reactive molecules on surfaces. And he is conducting trials of the technology with several UK-based pharma companies to explore its potential in that arena.

Feel the force

Glowacki’s enthusiasm for this ‘new kind of chemical intuition’ is shared by Markus Reiher of ETH Zurich in Switzerland. He has been collaborating with Glowacki to combine VR with his own work on ‘haptic chemistry’, a set of tools that he has been developing for several years that allows investigators to actually ‘feel’ the forces simulated atoms and molecules are experiencing.

Reiher’s setup is essentially a computerised model fed by rapid, almost real-time quantum mechanical calculations that Reiher and his group have spent years developing. The software translates values representing the energy of a structure into a force that can be felt by the user via a handheld pen device.

VR could help to address some of chemistry’s ‘PR problems’

This kind of immediate force feedback provides a more efficient way to explore reaction mechanisms, Reiher says. For example, when searching for the correct transition structure, or calculating the minimum energy pathway across an energy barrier. ‘You can try to get an automated algorithm to do this search for you,’ says Reiher. ‘But it’s much easier if you just manipulate this structure with your own hand in order to push it up the barrier.’

His group soon hope to release a version of their system which is free for other researchers to use, and they have also explored the possibility of combining it with Glowacki’s VR.

‘I visited him earlier this year and we hooked his virtual reality up to our quantum mechanical model,’ Reiher says. ‘Before, he had a system where he could do manipulations of molecules mostly based on classical force fields, but he couldn’t do any reactions because you need to have a sufficiently reliable quantum description the moment you break bonds. So we tried it with our implementation and it worked right away.’ He adds that, having tried the system, the immersive experience is ‘extremely convincing’.

It’s educational

Glowacki even believes that the visual wow factor of VR could help to address some of what he calls chemistry’s ‘PR problems’ – a perception among the general public that it is boring and lacks visual appeal. His spin-out – Interactive Scientific – has already attracted investment to develop Nano Simbox as an educational tool.

‘The ambitions for it are big and potentially transformative in terms of how the general public think about chemistry,’ says Glowacki. ‘The aim of the company is to put this in every high school in the world.’ Glowacki and his colleagues are now working to make it as cheap and easy as possible, with the hope that it can be adopted widely.

‘There have been two advances, one is in VR but the other is the ability to do the calculations in real time,’ Glowacki says. ‘For research that’s really important because you have to do the real thing if you’re going to say something about a molecular system.’

There’s something special about the sights and smells of real experimentation, and I don’t want to replace that – VASSILI PHILIPPOV, MEL SCIENCE

Interactive Scientific is not the only company who hope that the current trend for VR in the gaming world can transform science education. The founder of chemistry set subscription service MEL Science, Vassili Philippov, tells Chemistry World the company has begun to offer VR-based resources this year, offering more than 150 curriculum-aligned lessons for use by schools.

‘You can play with molecules, you can see enzymes making proteins based on RNA right in front of you. You can play and interact with them, so they’re real for you and it’s easy to understand what’s actually happening there. That’s probably the biggest value of virtual reality – to see the invisible,’ he says.

Their technology is designed for platform Google Daydream and a version for the even cheaper Google Cardboard is in the works. Like Glowacki, Philippov envisions VR playing an increasingly important role in classrooms in the future.

But could VR take over the role of practical work entirely? In our 2016 science fiction feature Testing times, writer John Gilbey envisions a world where learning is entirely virtual. It’s not too difficult to imagine a future where students don a headset and sensors in place of a lab coat and goggles, and are transported into a world free from the risks of burns and spillages. But Philippov is among those who feel this would cross a line.

‘I don’t want to take the magic of real experiments from kids,’ he says. ‘People start to imagine putting the lab in VR – that you can play with all those test tubes and so on in virtual reality.’

‘But there’s something special about the sights and smells of real experimentation, and I don’t want to replace that.’

Source : Chemistry World | Chemistry To Go Boldly Into Virtual World

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