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      • Resin-based carbons
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      • Theory
    • Superinsulation Materials Group
      • 1. Silica aerogel production concepts
      • 2. Reinforced silica aerogel
      • 3. Cellulose aerogels
      • 4. Chitosan aerogels
      • 5. Polyimide aerogels
      • 6. Aerogel additive manufacturing
      • 7. Aerogel concrete
      • 8. Acoustic properties of aerogels
      • 9. Epoxy-aerogel composites
      • 10. Thermal transpiration
      • 11. Sol-gel based sensors
      • 12. Advanced characterization
      • 13. Functional polyethoxysiloxanes
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The latest EmpaQuarterly:
Focus: Energy revolution

 

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312 - Building Energy Materials and Components
  • Overview
    • Media
    • Lab Values
  • Research
    • Advanced Colloidal Materials Engineering
      • Resin-based carbons
      • Inorganic Oxide Materials
      • Thin films, coatings and layers
      • Theory
    • Superinsulation Materials Group
      • 1. Silica aerogel production concepts
      • 2. Reinforced silica aerogel
      • 3. Cellulose aerogels
      • 4. Chitosan aerogels
      • 5. Polyimide aerogels
      • 6. Aerogel additive manufacturing
      • 7. Aerogel concrete
      • 8. Acoustic properties of aerogels
      • 9. Epoxy-aerogel composites
      • 10. Thermal transpiration
      • 11. Sol-gel based sensors
      • 12. Advanced characterization
      • 13. Functional polyethoxysiloxanes
    • Building Integration
      • Aerogel granulate compounding
      • Aerobrick
      • Improved thermal envelope in trains
      • Hohlstrasse 100
      • Aerogel render: Fixit 222
    • Publications
      • All Publications
    • Awards
  • Teaching and Events
  • Cooperation and Tech Transfer
    • Competences
    • Equipment&Facilities
  • Team
    • Advanced Colloidal Materials Engineering
    • Superinsulaiton Materials Group
    • Building Integration
    • Administration
    • Jobs
  • Empa
  • 500 - Energy, Mobility and Environment
  • 312 - Building Energy Materials and Components
  • Research
  • Publications
  • All Publications
  • Empa
  • 500 - Energy, Mobility and Environment
  • 312 - Building Energy Materials and Components
  • Overview
    • Media
    • Lab Values
  • Research
    • Advanced Colloidal Materials Engineering
      • Resin-based carbons
      • Inorganic Oxide Materials
      • Thin films, coatings and layers
      • Theory
    • Superinsulation Materials Group
      • 1. Silica aerogel production concepts
      • 2. Reinforced silica aerogel
      • 3. Cellulose aerogels
      • 4. Chitosan aerogels
      • 5. Polyimide aerogels
      • 6. Aerogel additive manufacturing
      • 7. Aerogel concrete
      • 8. Acoustic properties of aerogels
      • 9. Epoxy-aerogel composites
      • 10. Thermal transpiration
      • 11. Sol-gel based sensors
      • 12. Advanced characterization
      • 13. Functional polyethoxysiloxanes
    • Building Integration
      • Aerogel granulate compounding
      • Aerobrick
      • Improved thermal envelope in trains
      • Hohlstrasse 100
      • Aerogel render: Fixit 222
    • Publications
      • All Publications
    • Awards
  • Teaching and Events
  • Cooperation and Tech Transfer
    • Competences
    • Equipment&Facilities
  • Team
    • Advanced Colloidal Materials Engineering
    • Superinsulaiton Materials Group
    • Building Integration
    • Administration
    • Jobs

Building Energy Materials and Components

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Complete List of Publications 2016

Complete List of Publications 2015

Dr. Wim Malfait

Dr. Wim Malfait
Head of Laboratory

Phone: +41 58 765 4983


Dr. Samuel Brunner

Dr. Samuel Brunner
Dipl. Ing. ETH

Phone: +41 58 765 4768


Dr. Shanyu Zhao

Dr. Shanyu Zhao
MSc in Material Science, China

Phone: +41 58 765 4244

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Quick Access

  • Alumni
  • Empa Akademie
  • Empa Portal
  • Human Resources
  • Industry
  • Media
  • Newsletter
  • Publications
  • Visitors

The latest EmpaQuarterly:
Focus: Energy revolution