Numberland - New Processes, New Materials

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  • Wer wir sind

    Wir sind - seit 1996 - als Ingenieurbüro auf dem Werkstoffsektor aktiv. Dabei verbinden wir Themen wie Innovations- Wissens- und Technologiemanagement mit sehr guten Kontakten zu Wissenschaft und Wirtschaft ...
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                Your man in Germany Need a partner in Germany to get in contact with German institutions or companies? Are you tired of long distance phone calls or expensive trips from abroad with no or little results? Read more ...
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  • Neue Werkstoffe

    Wir übersetzen technische Anforderungen in physikalische Effekte oder Eigenschaften, und finden dann den dazu passenden Werkstoff ... We translate technical demands intophysical effects or properties, andthen find the suitable material ...    
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  • Neue Prozesse

    Wir analysieren, optimieren und dokumentieren Prozesse, die oft nicht im QM-Handbuch stehen,und bringen ihnen das Laufen bei ... We analyse, optimize and document processesoften not covered by quality management handbooks, and teach them to run ...
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    Wir finden neue Werkstoffe, Bauteile, Herstellungs- und Analytikverfahren, Projektpartner, Entwickler oder Forschungseinrichtungen, Know-how oder Geräte, etc. Damit all diese neuen Erkenntnisse dann bei Ihnen auch effektiv eingesetzt werden können, helfen wir Ihnen, Ihr Wissen besser zu erfassen, Prozesse zu optimieren, F&E-Projekte durchzuführen, technische Angebote zu beurteilen oder Lastenhefte zu erstellen.  
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This month offers and requests from the materials sector

We publish your materials conference

MRS Spring Meeting, Apr 21-25, 2014, San Francisco, USA

MRS Spring Meeting, Apr 21-25, 2014, San Francisco, USA

2014 MRS Spring Meeting & Exhibit, April 21-25, 2014, San Francisco, California

 

Meeting Chairs: Jose A. Garrido, Sergei V. Kalinin, Edson R. Leite, David Parrillo, Molly Stevens

Symposia

Energy

  • A: Film-Silicon Science and Technology
  • B: Organic and Inorganic Materials for Dye-Sensitized Solar Cells
  • C: Synthesis and Processing of Organic and Polymeric Materials for Semiconductor Applications
  • D: Materials for Photoelectrochemical and Photocatalytic Solar-Energy Harvesting and Storage
  • E: Earth-Abundant Inorganic Solar-Energy Conversion
  • F: Controlling the Interaction between Light and Semiconductor Nanostructures for Energy Applications
  • G: Photoactivated Chemical and Biochemical Processes on Semiconductor Surfaces
  • H: Defect Engineering in Thin-Film Photovoltaic Materials
  • I: Materials for Carbon Capture
  • J: Physics of Oxide Thin Films and Heterostructures
  • K: Nanostructures, Thin Films and Bulk Oxides—Synthesis, Characterization and Applications
  • L: Materials and Interfaces in Solid Oxide Fuel Cells
  • M: Fuel Cells, Electrolyzers and Other Electrochemical Energy Systems
  • N: Research Frontiers on Electrochemical Energy Storage Materials—Design, Synthesis, Characterization and Modeling
  • O: Novel Energy-Storage Technologies beyond Li-ion Batteries—From Materials Design to System Integration
  • P: Mechanics of Energy Storage and Conversion—Batteries, Thermoelectrics and Fuel Cells
  • Q: Materials, Technologies and Sensor Concepts for Advanced Battery Management Systems
  • R: Materials Challenges and Integration Strategies for Flexible Energy Devices and Systems
  • S: Actinides—Basic Science, Applications and Technology
  • T: Superconductor Materials—From Basic Science to Novel Technology

Soft- and Biomaterials

  • U: Soft Nanomaterials
  • V: Micro- and Nanofluidic Systems for Materials Synthesis, Device Assembly and Bioanalysis
  • W: Functional Biomaterials for Regenerative Engineering
  • Y: Biomaterials for Biomolecule Delivery and Understanding Cell-Niche Interactions
  • Z: Bioelectronics—Materials, Processes and Applications
  • AA: Advanced Multifunctional Biomaterials for Neuroprosthetic Interfaces

Electronics and Photonics

  • BB: Materials for End-of-Roadmap Devices in Logic, Power and Memory
  • CC: New Materials and Processes for Interconnects, Novel Memory and Advanced Display Technologies
  • DD: Silicon Carbide‒Materials, Processing and Devices
  • EE: Advances in Inorganic Semiconductor Nanoparticles and Their Applications
  • FF: The Grand Challenges in Organic Electronics
  • GG: Few-Dopant Semiconductor Optoelectronics
  • HH: Phase-Change Materials for Memory, Reconfigurable Electronics and Cognitive Applications
  • II: Emerging Nanophotonic Materials and Devices
  • JJ: Materials and Processes for Nonlinear Optics
  • KK: Resonant Optics—Fundamentals and Applications
  • LL: Transparent Electrodes

Nanomaterials

  • MM: Nanotubes and Related Nanostructures
  • NN: 2D Materials and Devices beyond Graphene
  • OO: De Novo Graphene
  • PP: Nanodiamonds—Fundamentals and Applications
  • QQ: Computationally Enabled Discoveries in Synthesis, Structure and Properties of Nanoscale Materials
  • RR: Solution Synthesis of Inorganic Functional Materials
  • SS: Nanocrystal Growth via Oriented Attachment and Mesocrystal Formation
  • TT: Mesoscale Self-Assembly of Nanoparticles—Manufacturing, Functionalization, Assembly and Integration
  • UU: Semiconductor Nanowires—Synthesis, Properties and Applications
  • VV: Magnetic Nanomaterials and Nanostructures

General - Theory nad Characterization

  • WW: Materials by Design—Merging Advanced In-Situ Characterization with Predictive Simulation
  • XX: Shape Programmable Materials
  • YY: Meeting the Challenges of Understanding and Visualizing Mesoscale Phenomena
  • ZZ: Advanced Characterization Techniques for Ion-Beam-Induced Effects in Materials
  • AAA: Applications of In-situ Synchrotron Radiation Techniques in Nanomaterials Research
  • BBB: Advances in Scanning Probe Microscopy for Material Properties
  • CCC: In-situ Characterization of Material Synthesis and Properties at the Nanoscale with TEM
  • DDD: Atomic-Resolution Analytical Electron Microscopy of Disruptive and Energy-Related Materials
  • EEE: Materials Behavior under Extreme Irradiation, Stress or Temperature

Special Symposia

  • FFF: Educating and Mentoring Young Materials Scientists for Career Development
  • X: Frontiers of Materials Research

 

Go to the conference website ...