Technologieangebote

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Verschiedene Technologien der ETH Zürich stehen zur Lizenzierung zur Verfügung. Die untenstehende Liste zeigt eine Auswahl der zum Patent angemeldeten Erfindungen. Siehe auch:

Technologieliste

Fibre-reinforced absorbable bone cement for load-bearing orthopedic applications

fibre in cement

This absorbable bone graft fills large voids within bone tissue after trauma or oncology therapy, augments bone structure and fixes non-degradable implants. The material supports mechanical stresses well and lends itself to load-bearing applications. Downloadfactsheet (PDF, 395 KB)

Synthetic hydrogel matrix for collagen imaging on chip

osteoid matrix

This microfluidic culture mimics early bone development in vitro. The on-chip assembly is accessible to various imaging techniques, which facilitate the monitoring of cell-secreted collagen fibres and diagnosing tissue disorders such as brittle bone disease, cancer and fibrosis. Also, in vitro screening of drug candidates is possible reducing the necessity of animal testing. Downloadfactsheet (PDF, 289 KB)

A long non-coding RNA as a potent and specific cell death effector of cancer cells death effector of cancer cells

Drosophilia melanogaster

The long non-coding RNA (lncRNA) let-A from the fruit fly Drosophila melanogaster provides a template for a novel class of cancer treatments. lncRNA let-A induces rapid cell death in various human cancer cell types and human tumor organoids. Downloadfactsheet (PDF, 350 KB)

Microfluidic device for quantitative single cell proteomics

single cell proteomics

This microfluidic device traps single cells and performs sample preparation for proteomic analysis. The combination of multiple units enables the processes of cell injection, capture, lysis and detection to be completed on a single microfluidic device.
Downloadfactsheet (PDF, 273 KB)

Zero-power event detection for waking up smart devices

zero -power sensor

This zero-power sensor transforms vibrations into electric signals. It activates smart devices which have been switched off completely using the energy of the trigger event. Smart devices with zero-power sensors, thus, save energy in their dormant state while remaining ready for relevant triggers.
Downloadfactsheet (PDF, 517 KB)

Paper-based electrodes for more accurate rapid tests

Papier basierte Elektroden

This rapid diagnostic test kit combines the convenience of a fluidic assay with the reliability of an electrochemical readout within the same unit. Applications lie in the field of clinical diagnostics, chemical analysis, food inspection and environmental monitoring.
Downloadfactsheet (PDF, 454 KB), externe SeiteYouTube

Instrument for the simultaneous characterization of aerosol particle size and charge distributions

Low leakage integrated circuits for Internet-of-Things

Fully implantable ECG system to measure left ventricular volume

Schema einer Einlasskanüle

Multi-mode physiological controller for blood pumps based on implanted pressure sensors

illustration of heart

Physiological control of blood pumps based on active intracardiac volume measurements

test-rig for heart sensors

Robust and precise genetic feedback control systems for cell therapy

Downward ICP mass spectrometer for the analysis of cells and particles

Safe and effective Salmonella vaccine for application in livestock rearing

Expanding, ultrathin, smooth cylinders for implants

3D microfibrillar scaffolds for in vitro cell culture, tissue engineering and surgical applications

PEGylation of therapeutic proteins and peptides

De novo generation of libraries of backbone N-?methylated peptides for drug development

Building blocks for the synthesis of sterochemically pure oligonucleotides

Real-?time user feedback from unpredictable data streams

Kontakt

Dr. Melanie Johnson

ETH transfer
R?mistrasse 101
8092 Zürich
Schweiz

Dr.  Melanie Johnson
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