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Crystallisation - a Biological Perspective: Faraday Discussion 159

23 - 25 July 2012, Leeds, United Kingdom


Introduction
The last ten years have seen a revolution in our understanding of the mechanisms of biological crystal growth. While it had long been assumed that crystallisation would occur by the same classical mechanisms which form the basis for most descriptions of crystallisation processes, it is now becoming apparent that this is not the case.

There are a number of key observations which have changed our view of crystallisation mechanisms. While it had long been assumed that crystalline biominerals typically form by ion-by-ion growth, it is now recognised that they often precipitate via amorphous precursor phases. This is well established for calcium carbonate and there is growing evidence that biogenic crystalline calcium phosphate phases may form via an analogous route. 

Recent re-examination of the structure of many calcium carbonate biominerals is also suggesting that "non-classical" crystallisation pathways, where crystals grow from the assembly of precursor particles, may also be widespread. Significantly, these mechanisms are not unique to the biological world. Possibly partly inspired by the identification of these biogenic mineralisation strategies, there is currently great interest from the general crystal growth community in these new and controversial ideas. A number of studies on crystal nucleation have recently re-examined classical nucleation theory, and the observation of pre-nucleation clusters is a recurrent theme of great interest.

This controversial result apparently contradicts classical nucleation theory which leads the subject of crystal nucleation and growth via assembly to demand attention. 

Aims

The conference aim was to bring together researchers working in the areas of biomineralisation, biomimetic crystallisation, nucleation and crystal growth. Although there is significant overlap between these disciplines in topic, researchers in these areas tend to remain distinct.

There was a huge benefit to all parties by the discussion of similar problems from different perspectives, thus achieving a balance between experimentalists and theoreticians/ modellers.

Themes 

  • Biological Crystallisation Mechanisms
  • Current Ideas in Nucleation
  • Amorphous Precursor Phases
  • Self-assembly Crystal Growth Mechanisms           

Useful links

Downloads


Speakers
  • Daan Frenkel (Introductory Lecture) University of Cambridge, United Kingdom
  • Jim DeYoreo Molecular Foundry, United States
  • John Spencer Evans New York University, United States
  • Hiromichi Nagasawa University of Tokyo, Japan
  • Alfons van Blaaderen Utrecht University, Netherlands
  • Laurie Gower University of Florida (Gainsville), United States
  • Helmut Coelfen The University of Konstanz, Germany
  • Peter Vekilov University of Houston, United States
  • R. Lee Penn University of Minnesota, United States
  • Bartosz Grzybowski Northwestern University, United States

Sponsorship & supporting organisations
We would like to thank the Biological Physics Group of the Institute of Physics for their support of FD159.
Venue
Leeds Beckett University

Leeds Beckett University, City Campus, Leeds, LS1 3HE, United Kingdom

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