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Faraday Discussion 143: Soft Nanotechnology

15 - 17 June 2009, London, United Kingdom


Introduction

Faraday Discussion 143 incorporated aspects of structuring soft-materials at the nanoscale and the incorporation of such materials into actual devices.Biological cells are the ultimate example of 'soft machines', which rely on the operation of complex molecular machines made of organic matter. It is clear that man-made attempts to emulate biological systems are nowhere near the same level of complexity.

Soft nanotechnology aims to build on our knowledge of biological systems, by implementing self-assembly and 'wet chemistry' into electronic devices, actuators, fluidics, etc.  Understanding, predicting and utilising the rules of self-assembly (be it at solid liquid interfaces, in solution, or in block copolymers) and interface the resulting complex structures in well-defined 2D and 3D arrangements.

The control of nanoscale features of polymers in two and three dimensions impacts on device physics as much as on cell adhesion and cell differentiation. As we are approaching the limits of Moore's law the demand for more advanced and sophisticated polymers suitable for patterning at the nanoscale as much as the need for new materials compatible with alternative patterning can only be satisfied if we understand the fundamental nature of self-assembly and self-organization of organic materials in this context.
Themes
The following fundamental questions were addressed during the discussion:
  • What are the new effects when patterning soft materials at the nanoscale? (i.e. where do 'materials' break up into 'molecules', how do physical/mechanical properties change with size).
  • How can these effects be understood and exploited?
  • Is it possible to go one step further and predict yet unencountered behaviour? 
  • What are the limitations in feature shape, sizes, complexity and function that are accessible via direct patterning and self-assembly? 
  • How much progress is being made into fabricating/assembling devices based on such structured polymers. Can we ever rival silicon devices or cellular function?   

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Speakers
  • Richard A L Jones University of Sheffield, United Kingdom
  • Ayusman Sen The Pennsylvania State University, United States
  • A J Parnell University of Sheffield, United Kingdom
  • Klaus Schulten University of Illinois, United States
  • Maria L Sushko University College London, United Kingdom
  • Olli Ikkala Helsinki University of Technology, United Kingdom
  • A A Kornyshev Imperial College London, United Kingdom
  • Jurriaan Huskens University of Twente, Netherlands
  • Wenbing Hu Nanjing University, China
  • Alexander Böker University of Bayreuth, Germany
  • Derek Y C Chan University of Melbourne, Australia
  • Stefan Matile University of Geneva, Switzerland
  • H M Colquhoun University of Reading, United Kingdom
  • Chengde Mao Purdue University, United States
  • Rafael Piñol Institut Curie, France
  • W Hayes University of Reading, United Kingdom
  • Michele Vendruscolo University of Cambridge, United Kingdom
  • R V Ulijn University of Strathclyde, United Kingdom
  • Derek N Woolfson University of Bristol, United Kingdom
  • Wesley R Browne University of Groningen, Netherlands
  • Takuzo Aida University of Tokyo, Japan
  • Jan van Esch Delft Chem Tech, Netherlands
  • George Whitesides Harvard University, United States

Sponsorship & supporting organisations

We would like to thank LOT-Oriel for their generous support of Faraday Discussion 143.
Venue
The Royal Society

The Royal Society, 6-9 Carlton House, London, SW1Y 5AG, United Kingdom

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