Several projects:
1. Optical improvements and geometrical optimization of our newly developed detection module
2. Design of a new detection module for multiplex PCR
3. Design and construction of an innovative DNA-extraction device
4. Surface coatings strategies for digital PCR
The Functional Materials Laboratory (FML) of ETH Zürich is a group performing world-class research in a wide variety of fields, from nanoparticle chemistry to chemical device development. We are designing and developing innovative solutions for a wide range of applications with a cost-effective approach and short time-to-result.
The Functional Materials Laboratory (FML) of ETH Zürich is a group performing world-class research in a wide variety of fields, from nanoparticle chemistry to chemical device development. We are designing and developing innovative solutions for a wide range of applications with a cost-effective approach and short time-to-result.
Optical improvements and geometrical optimization of our newly developed detection module, including:
- Mathematical modeling/ray tracing (Matlab, Python)
- Simulation, testing and validation (hands-on work, image analysis)
Design of a new detection module for multiplex PCR:
- Selection and procurement of dyes and optical filters
- In-house validation and testing (hands-on)
- CAD design and fabrication of new components, installation and testing (SolidWorks, 3D printing)
Design and construction of an innovative DNA-extraction device:
- CAD design and fabrication (SolidWorks, 3D printing, milling)
- Assembly and testing, design iterations and optimization (hands-on)
Surface coatings strategies for digital PCR:
- Selection of coatings and procurement (literature research, chemistry)
- Testing and design of alternative strategies (hands-on)
Optical improvements and geometrical optimization of our newly developed detection module, including: - Mathematical modeling/ray tracing (Matlab, Python) - Simulation, testing and validation (hands-on work, image analysis)
Design of a new detection module for multiplex PCR: - Selection and procurement of dyes and optical filters - In-house validation and testing (hands-on) - CAD design and fabrication of new components, installation and testing (SolidWorks, 3D printing)
Design and construction of an innovative DNA-extraction device: - CAD design and fabrication (SolidWorks, 3D printing, milling) - Assembly and testing, design iterations and optimization (hands-on)
Surface coatings strategies for digital PCR: - Selection of coatings and procurement (literature research, chemistry) - Testing and design of alternative strategies (hands-on)
Dr. Michele Gregorini
HCI E 103
Vladimir-Prelog-Weg 1-5/10
8093 Zürich
Switzerland
+41 44 633 91 55
michele.gregorini@chem.ethz.ch
Dr. Michele Gregorini HCI E 103 Vladimir-Prelog-Weg 1-5/10 8093 Zürich Switzerland +41 44 633 91 55 michele.gregorini@chem.ethz.ch