Electronic Chemical Cell


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  • Home
  • Overview
    • Multidisciplinarity
    • Overall objectives
  • Partners
    • Map
    • Ruhr-Universität Bochum - BioMIP
    • Ruhr-Universität Bochum - BioOrg
    • RijksUniversiteit Groningen
    • Syddansk Universitet
    • The Hebrew University of Jerusalem
    • European Center for Living Technology (ECLT)
  • Research
    • Final Report
      • ECCell Final Executive Summary
    • Deliverables
      • Deliverables List
      • Individual Deliverables
        • ECCell_D1_1 Development of replication chemistry running in the electronic cel
        • ECCell_D1_2 Integration of high information content replication in ECCells
        • ECCell_D2_2 Mid-term report on programmable containment
        • ECCell_D3_4 Autonomous activation of isothermal ligation
        • ECCell_D4_3 ECCell-based integration in microscale chemical processing networks.
        • ECCell_D5_1 UML specification of design space for ECCells.
        • ECCell_D5_3 Completed software system _ User Manual
        • ECCell_D5_3 Completed software system for programming and optimizing ECCells
        • ECCell_D6_1 Demonstration of sequence-specific DNA processing with programmable ECCell gels
        • ECCell_D7_1 Report on ECLT Workshop and Training Activities
        • ECCell_D7_2 Final plan for the use and dissemination of information
    • 2010-11 Progress Report 3
      • ECCell_Yr3_Exec_Summary
    • Midterm Report
      • WP1. Programmable replication
      • WP2: Programmable Containment
      • WP2-3 Contributions by SDU
      • WP3: Electrochemical Activation
      • WP4: ECCell MEMS integration
      • WP5: ECCell Simulation and Programming
    • 2009-10 Progress Report 2
      • ECCell_Yr2_Exec_Summary
    • 2008-9 Progress Report I
      • ECCell_Yr1_Exec_Summ
    • Review reports
  • Publications
    • Publications (Peer-Reviewed)
    • Publications (Other)
  • ICT
    • ECCell Technology & ICT
    • Realtime electronic control
  • Workplan
    • Workflow
    • WP1. Programmable replication
    • WP2. Programmable containment
    • WP3. Electrochemical activation
    • WP4. ECCell MEMS integration
    • WP5. ECCell Simulation and Programming
    • WP6. Functionalization and ICT Applications
  • Workshops
    • Kickoff Workshop 2008
    • Workshop July 2009
    • 1st Review Workshop 2009
    • Workshop Apr 2010
    • Alife XII Session
    • Workshop Sep 2010
    • 2nd Review Workshop
    • ECAL, Special session on Chem-Bio ICT with COBRA - Paris
    • FET11 Conference special session on Chem-Bio ICT - Budapest
    • ECCell-MATCHIT Joint Workshop
    • Workshop Sep 2011
    • Workshop ECHS 2011
    • ECCell Final Review
  • Ethics
    • ISSP What is Living Technology …?
    • Living Technology Working Group, ISSP
  • Proposal
  • Press
  • Sitemap

Sidebar[Skip]

WP4: ECCell MEMS integration

  • New chemical microprocessor design and interface
  • New single and double layer multilayer electrode arrays
  • New fabrication process of MEMS modules
  • Programmable gelation and molecule transport, mix and split operations
  • Programmable gelation and molecule transport in microscale cycles
  • Programmable Traveling-Wave Electrophoresis (TWE)

2009-10 Progress Report

  • WP1. Programmable replication
  • WP2: Programmable Containment
  • WP2-3 Contributions by SDU
  • WP3: Electrochemical Activation
  • WP4: ECCell MEMS integration
  • WP5: ECCell Simulation and Programming

Research Partners

  • RUB-BioMIP - McCaskill
  • RUB-BioOrg - von Kiedrowski
  • RUG-PCBE - Hermann
  • SDU-FLinT - Rasmussen
  • HUJI - Willner
  • ECLT - Lindgren

Related Links

  • EU ICT : Programme
  • Future and Emerging Technologies
  • Programme : FET Pro-Active
  • Bio-chemistry based IT
  • COBRA
    Coordination of the Bio-Chem-IT Research Area
  • MATCHIT
    FP7 EU Project
  • Programmable Artificial Cell Evolution (PACE)
  • Systems Chemistry
  • Living Technology
  • Unconventional Computing

WP4: ECCell MEMS integration

Progress in the last year has centered on the following topics

  • New chemical microprocessor design and interface
  • New single and double layer multilayer electrode arrays
  • New fabrication process of MEMS modules
  • Programmable gelation and molecule transport, mix and split operations
  • Programmable gelation and molecule transport in microscale cycles
  • Programmable Traveling-Wave Electrophoresis (TWE)

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