About
Why CAMPUS?
Advanced materials serve as the “enabling technology” for critical sectors such as electronics, computers, telecommunications, transportation, aerospace, medical equipment, construction, and consumer products, among many others. Unfortunately, companies face challenges in establishing or maintaining a competitive advantage within these rapidly evolving high-technology sectors. CAMPUS offers opportunities to collaborate with Cornell University’s premier research centers and faculty, staff, and students in order to accelerate innovation in materials science and engineering.
Capabilities
| Make | Model | Measure |
|---|---|---|
| 3D Printing Fabrication | Theory and Simulation (Materials by Design) | Electrical Testing |
| Bulk Crystal Growth Facility | Computation, Biotechnology, Microfluidics (Life Sciences) | High Frequency Electrical Testing |
| Thin Film Growth Facility | Heterointegration/ Advanced Packaging | Electron and Optical Microscopy |
| Chemical Vapor Deposition | Lithography Support | High Energy X-Ray Beamlines |
| Cutting, Polishing, Shaping, Joining, and Machining | Synchrotron Source for Structural Biology | |
| Photolithography (Deep UV Stepper, Maskless Photolithography) | High Magnetic Field X-Ray Beamline | |
| Electron Beam Lithography | X-Ray Experiment Stations for Advanced Manufacturing Processes | |
| Other Lithography | Lending Library of Equipment | |
| Thin Film Deposition and Material Processing | Mechanical Properties Testing and Analysis | |
| Wet and Dry Etching | Soft Matter/Polymer Analysis | |
| Hot Annealing Processes | Structure Characterization | |
| Back End of Line Processing | Surface Analysis and Characterization | |
| Wire Bonding and Packaging | Thin Film Characterization | |
| Sample Preparation | X-Ray and Diffraction Analysis | |
| Molecular Beam Epitaxy (MBE) | ||
| Sputtering | ||
| Film Synthesis w/ Integrated Property Measurement (w/o Air Exposure) |