Author Archive

Steering micro-swimmers using a man-made Brownian motor

In a recent Edge article, Chemical Science Associate Editor Professor Haw Yang and his group at Princeton University use Brownian motion to transport a two-sided micro-particle to a target, with the help of ‘photon-nudging’ to keep it on track.

The micrometer precision of this simple method of locomotion is notable.  It could potentially be used to deliver drugs and molecules in cells, precisely and in real-time.

Normally, Brownian motion causes micro-particles to move randomly in fluids.  This presents a challenge for the creation of controllable ‘micro-swimmers’.  Yet, with some external direction, this motion can deliver particles to their targets.

The adaptive photon-nudging idea.

Yang and co-workers ‘steer’ a two-sided microsphere in a fluid, as it undergoes Brownian motion.  One side has a gold coating, whilst the other is polystyrene.  When the polystyrene side is facing the target, a laser beam is activated.  The light then moves this ‘Janus’ particle in one of two ways, either by ‘radiation-pressure’ (pushing by photons) or by heat-induced locomotion via the photophoretic effect.  The latter effect forces this particle, when it has a large temperature difference across its two faces, to move in the direction of the cooler side (polystyrene side) (see also Crooke’s radiometer).

The authors do not use ‘photon-nudging’ constantly.  It is used occasionally, just to steer the particle in the right direction. Brownian motion does most of the work transporting the particle to the target– making this a good example of a man-made Brownian motor.

It will be interesting to see how soon researchers can refine this ‘photon-nudging’ method to achieve nanometer or molecular scale accuracy.  Many would welcome that level of control for particles and molecules in cells and chemical solutions.

C3SC90007J

Read this HOT Chem Sci cover article in full!

Harnessing thermal fluctuations for purposeful activities: the manipulation of single micro-swimmers by adaptive photon nudging
Bian Qian, Daniel Montiel, Andreas Bregulla, Frank Cichos and Haw Yang
Chem. Sci., 2013, 4, 1420-1429
DOI: 10.1039/C2SC21263C

Geoff Nelson is a guest web-writer for Chemical Science.  He currently works as a post-doctoral research associate in Dr David Payne’s research group in the Department of Materials at Imperial College, London.  Geoff’s current research concerns the synthesis and characterization of post-transition metal oxides for use in the energy sector.  His other research interests include carbon-based materials, biophysical chemistry, and surface science.

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Challenges in Chemical Renewable Energy (ISACS12)– Registration now open!

We are delighted to announce that registration for Challenges in Chemical Renewable Energy (ISACS12) is now open.

Guarantee your place at this significant conference today whilst benefiting from the following fantastic savings which are currently available:

  • Early bird discount – £50 saving on the standard fee
  • Student rate – available to undergraduates and postgraduates on a full time course
  • Bursaries – offered to students and younger members of the RSC in the early stages of their career

Registration is quick and simple via the online booking system, so act now to secure your space at one of the most exceptional events of 2013.


Find Out More

For the latest information on Challenges in Chemical Renewable Energy (ISACS12) or any of the conferences in the series, please sign up for the exclusive newsletter, follow ISACS on twitter or visit the dedicated webpage.

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Last chance to submit your poster abstract for Challenges in Organic Materials & Supramolecular Chemistry (ISACS10)

ISACS10

Final Chance To Submit

The poster abstract deadline for Challenges in Organic Materials & Supramolecular Chemistry (ISACS10) is almost upon us.  Take advantage of this exceptional opportunity to showcase your work to a truly global audience and submit before Friday 5 April 2013.

Registration Now Open

We are delighted to announce that registration for this significant conference is now opensecure your space now to benefit from the early bird discount. There are also student rates and bursaries available.

For full details on Challenges in Organic Materials & Supramolecular Chemistry (ISACS10), please visit the dedicated website.

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Van der Waals Interactions: Thermodynamics and Impact on Molecular Design

Geoff Nelson, our new guest web-writer for Chemical Science, blogs about recent findings on van der Waals interactions in non-polar liquids.  Read his first Chem Sci blog post below:

Professor Christopher Hunter, in his latest Edge article, notes that the thermodynamic properties of the van der Waals interactions between non-polar molecules can be predicted based on their calculated molecular surface areas (0.3 kJ mol-1 Å-2).  His findings help simplify computational approaches to the design of molecular binding sites or self-assembled molecules.

 http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/image/GA?id=C2SC21666C

Prof Hunter’s article includes a detailed model for the behaviour of the van der Waals interaction at liquid-vapor and liquid-liquid interfaces.  Each molecule has ‘surface contact points’ capable of van der Waals interactions with the external environment.  These contacts can be made and broken, depending on the space around the molecule.  The total number of contacts determines the total van der Waals contribution to free energy.  This model helps explain the physical basis of several thermodynamic events (e.g., melting).

The choice of non-polar liquids as the chemical system to study was ideal to isolate the van der Waals interaction, as other non-covalent interactions are minimised (e.g., electrostatic). 

Potent pharmaceuticals and stable self-assembled structures depend on effective binding between molecules.  Predicting the chemical structure necessary to promote such binding is now made easier by Professor Hunter’s research.

Read this Chemical Science Edge article in full:

van der Waals interactions in non-polar liquids

Christopher A. Hunter

Chem. Sci., 2013,4, 834-848

DOI: 10.1039/C2SC21666C

Geoff Nelson is a new guest web-writer for Chemical Science.  He currently works as a post-doctoral research associate in Dr David Payne’s research group in the Department of Materials at Imperial College, London.  Geoff’s current research concerns the synthesis and characterization of post-transition metal oxides for use in the energy sector.  His other research interests include carbon-based materials, biophysical chemistry, and surface science.

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Robotic ribosome-mimicking rotaxanes featured on Chemistry World

Congratulations to our Chemical Science Associate Editor, Professor David A Leigh, for recently being featured on Chemistry World for his latest work in using artificial molecular machines to mimic ribosomes in assembling peptides.  These exciting new ‘robot ribosomes’ designed and studied by Dave’s research group have been gaining more and more attention, also having been highlighted in Chemistry and Engineering News (C&EN).

You can also read Dave’s latest Chem Soc Rev Tutorial Review on template synthesis of molecular knots, and his 2012 Chem Comm paper on half-rotation in a kinetically locked [2]catenane.

Dave is an expert in supramolecular chemistry, focussing on the development of new methods for the synthesis of catenanes and rotaxanes, and on experimental synthetic molecular machine design.

Are you working in supramolecular chemistry, experimental molecular machines, or related fields?  Submit your top-notch, high-impact articles to Dave’s Chemical Science editorial office today!

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