About
COPE has cutting-edge device fabrication capabilities and expertise for a variety of photonic, opto, semiconductor, & functional devices.
Facilities
COPE has cutting-edge device fabrication capabilities and expertise for a variety of photonic, opto, semiconductor, & functional devices.
Nanofabrication Cleanrooms
- Photolithography
- Electron-beam lithography
- Thin-film deposition (thermal, e-beam, sputtering)
Organic Materials Synthesis Labs
- Polymer synthesis
- Organic small molecule fabrication
- Purification and characterization stations
Device Processing Labs
- Thin-film transistor TFT fabrication
- Organic solar cell and OLED device assembly
- Inkjet and spray deposition systems
Materials Characterization Facilities
- UV-Vis spectroscopy
- Photoluminescence PL and electroluminescence EL measurements
- Atomic force microscopy AFM
- Scanning electron microscopy SEM
Electrical and Optical Testing Labs
- Current-voltage I-V characterization
- Capacitance-voltage C-V profiling
- Time-resolved photophysical measurements
Environmental and Stability Testing
- Gloveboxes with inert atmospheres
- Thermal aging and accelerated lifetime testing chambers
Custom Device Integration Facilities
- Flexible and stretchable substrate processing
- Printed electronics prototyping
- Hybrid material integration (organic-inorganic interfaces)
People
COPE features top-tier individuals from around the globe to expand this field with unparalleled ability, vision, and drive.
Leadership
Professor Natalie Stingelin Elected a Materials Research Society Fellow
Associate Professor, etc
School of X and Y, etc
