• Hauptnavigation
  • Unternavigation
  • Inhalt
  • Suche
TUHH

Institute of Optical and Electronic Materials
Institute of Optical and Electronic Materials

Menu
show search form
  • de
  • en
    • Institut 
      • InstitutStaff
        • Current StaffAlumni
        Research
        • Research Topics
          • Current research
            • Relativistic photonic band gap mirror on chipPhotocatalytic water splitting with nanoporous goldHigh temperature stable selective and broadband reflectorsSelective absorbers and emittersNearfield radiative heat transferPlasmon induced hot electron injection for photocatalysisTHz generation in silicon photonicsMagneto-optical devicesMIR gas sensingAI /ML for photonics
            Research in the past
            • High temperature broadband reflectorsNear-field radiative heat transferSelective absorbers and emittersDynamic silicon photonicsElectro-optic modulationTrimmable nanophotonic devicesElectrically conductive carbon nanotube polymer compositesThird order nonlinear photonicsHybrid silicon-polymer nanophotonicsLight emitting materialsNonlinear OpticsOptical Pattern Recognition Organic Field-Effect TransistorPhotonic crystals
        • Public Research Funding
          • DFG CRC M3DFG Research GroupMaDrix
          CollaborationsSoftware SupportEquipment
        Teaching
        • Teaching
          • Lectures of the instituteExercise of the InstituteExamination DatesMündliche Ergänzungsprüfung
        Publications
        • Papers (tore)ConferencesDissertations
        JobsContactCampus Map
        • Site planDirections to TUHHOpen Street Map
        About this siteData Privacy Statement
    • Research 
      • Research Topics
        • Current research
          • Relativistic photonic band gap mirror on chipPhotocatalytic water splitting with nanoporous goldHigh temperature stable selective and broadband reflectorsSelective absorbers and emittersNearfield radiative heat transferPlasmon induced hot electron injection for photocatalysisTHz generation in silicon photonicsMagneto-optical devicesMIR gas sensingAI /ML for photonics
          Research in the past
          • High temperature broadband reflectorsNear-field radiative heat transferSelective absorbers and emittersDynamic silicon photonicsElectro-optic modulationTrimmable nanophotonic devicesElectrically conductive carbon nanotube polymer compositesThird order nonlinear photonicsHybrid silicon-polymer nanophotonicsLight emitting materialsNonlinear OpticsOptical Pattern Recognition Organic Field-Effect TransistorPhotonic crystals
      • Public Research Funding
        • DFG CRC M3DFG Research GroupMaDrix
        CollaborationsSoftware SupportEquipment
    • Teaching 
      • Teaching
        • Lectures of the instituteExercise of the InstituteExamination DatesMündliche Ergänzungsprüfung
    • Publications 
      • Papers (tore)ConferencesDissertations
    • Sitemap
TUHH > OEM > Institut > Research > Research Topics > Research in the past

Research in the past

 

High temperature broadband reflectors

Near-field radiative heat transfer

Selective absorbers and emitters

Dynamic silicon photonics

Electro-optic modulation

Trimmable nanophotonic devices

Elektrisch leitfähige Carbon Nanotube/Polymer-Verbundwerkstoffe

Third order nonlinear photonics

Hybride Silizium-Polymer-Nanophotonik

Lumineszierende Materialien

Nichtlineare Optik

Optische Mustererkennung

Organische Feldeffekt-Transitoren

Photonische Kristalle


  • Institut
  • Staff
  • Research
    • Research Topics
      • Current research
      • Research in the past
        • High temperature broadband reflectors
        • Near-field radiative heat transfer
        • Selective absorbers and emitters
        • Dynamic silicon photonics
        • Electro-optic modulation
        • Trimmable nanophotonic devices
        • Electrically conductive carbon nanotube polymer composites
        • Third order nonlinear photonics
        • Hybrid silicon-polymer nanophotonics
        • Light emitting materials
        • Nonlinear Optics
        • Optical Pattern Recognition
        • Organic Field-Effect Transistor
        • Photonic crystals
    • Public Research Funding
    • Collaborations
    • Software Support
    • Equipment
  • Teaching
  • Publications
  • Jobs
  • Contact
  • Campus Map
  • About this site
  • Data Privacy Statement

Links

Stud.IP

Prüfungstermine (Filter: E-12)

TUHH open research (Tore)

News

Stellenangebote

OEM-Webadmin, 2024/04/08
 TUHH Aktuell  Kontakt
Imprint | Data Privacy

Hamburg University of Technology
Institute of Optical and Electronic Materials
Eißendorfer Straße 38, 21073 Hamburg, Germany

Phone (Secretary) +49 40 42878-3247 | Fax +49 40 427 314 611 | Email oem@tuhh.de