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Development of electronics setup & readout method for Transepithelial/transendothelial electrical resistance (TEER)-based measurements of tissue integrity on microfluidic organ-on-a-chip device

  • ETH Zurich
  • Bio Engineering Laboratory

We offer a project where you will develop a novel system for real-time TEER-based assessment of barrier function of human in vitro tissue models (e.g., bladder, lung) in microfluidic organ-on-a-chip device developed in the Bioengineering Lab.

  • Biology, Engineering and Technology, Medical and Health Sciences, Physics
  • Master Thesis, Semester Project

Event-based Structured Light for Depth Sensing and Material Differentiation in Forest Canopies

  • ETH Zurich
  • Environmental Robotics Laboratory Other organizations: Robotics and Perception

This project will investigate the used of event-camera based depth sensing using structured light in the challenging environment of forest canopies. Additionally, utilizing the unique properties of event cameras, material differentiation based on spectral responses will be developed.

  • Computer Vision, Intelligent Robotics, Optical and Photonic Systems
  • Master Thesis

Development of a supervised ml model for occupant detection in smart buildings

  • Empa
  • Urban Energy Systems

A robust, grey-box approach for occupant detection based on indoor air quality data is developed, using previous development and Empa NEST's infrastructure.

  • Architecture, Urban Environment and Building, Information, Computing and Communication Sciences
  • Semester Project

DNA isolation

  • ETH Zurich
  • Functional Materials Laboratory

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.

  • Analytical Biochemistry, Chemistry, Engineering and Technology, Medical Biochemistry: Nucleic Acids
  • Bachelor Thesis, Internship, Master Thesis, Semester Project

BSc or MSc Thesis, Research Project, Hilfsassistenz

  • ETH Zurich
  • Functional Materials Laboratory

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.

  • Biomedical Engineering, Chemical Engineering, Computer Hardware, Electrical and Electronic Engineering, Manufacturing Engineering, Mechanical and Industrial Engineering
  • Internship, Lab Practice, Master Thesis, Semester Project

Mutliple project opportunities: optical improvements, coating strategies, sample preparation

  • ETH Zurich
  • Functional Materials Laboratory

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

  • Biomechanical Engineering, Engineering/Technology Instrumentation, Interdisciplinary Engineering, Manufacturing Engineering, Materials Engineering, Mechanical Engineering
  • Bachelor Thesis, Course Project, Lab Practice, Master Thesis, Semester Project

PCB Development for innovative medical devices

  • ETH Zurich
  • Functional Materials Laboratory

You can design and procure a new PCB to drive our innovative medical device that can make advanced PCR diagnostics possible within minutes.

  • Aerospace Electrical Systems, Automotive Engineering, Electrical Engineering, Mechanical and Industrial Engineering
  • Bachelor Thesis, Collaboration, Course Project, ETH Organization's Labels (ETHZ), Internship, Lab Practice, Master Thesis, Semester Project, Student Assistant / HiWi

Design Automation of AM Fluid Components – Development of Design Tools for Case Studies with Industry Partners

  • ETH Zurich
  • pd|z Product Development Group Zurich

Design effort and the associated costs are key factors which are limiting the adoption of additive manufacturing in industrial applications. One approach to tackle this problem is the use of automated design tools, which reduce the manual design effort to achieve manufacturable designs. In current research at pdz, we have been working on developing an automated design workflow for hydraulic manifolds. Several steps in the process chain have been tackled so far.

  • Mechanical Engineering
  • Master Thesis, Semester Project

Studying gold-nanoparticle self-assemblies in biological environments: a basic understanding for drug delivery systems

  • Empa
  • Center for X-Ray Analytics

Gold nanoparticles (NPs) are widely used materials for imaging techniques and drug delivery owed to their unique electrical, optical and chemical properties as well as their biocompatibility in human cells [1]. These applications however, require gold-NP suspensions that are stable in biological environments. Previous studies showed that attachment of a polyethylene glycol (PEG) layer onto gold-NPs and addition of human serum albumin induced formation of stable and ordered self-assemblies in biological solutions [2]. The questions that we seek to answer are: can we control and modulate the size, shape and ordering of these gold-NP-protein assemblies and, how does their self-assembled structure change once they are brought into more complex biological environments like cells or soft tissue? [1] Sperling, Ralph A., et al. "Biological applications of gold nanoparticles." Chemical Society Reviews 37.9 (2008): 1896-1908. [2] Iranpour Anaraki, Neda, et al. "In‐situ Investigations on Gold Nanoparticles Stabilization Mechanisms in Biological Environments Containing HSA." Advanced Functional Materials 32.9 (2022): 2110253.

  • Cellular Interactions (incl. Adhesion, Matrix, Cell Wall), Clinical Pharmacology and Therapeutics, Colloid and Surface Chemistry, Condensed Matter Physics-Structural Properties, Electronmicroscopy, Xray Crystallography
  • Internship, Master Thesis, Semester Project

Unsupervised Video Object Segmentation for Learning Semantic Neural Radiance Fields

  • ETH Zurich
  • Autonomous Systems Lab

This project explores leveraging video object segmentation methods for 3D volumetric scene segmentations. The goal is to segment objects from videos and bridge the inferred masks with a volumetric reconstruction and segmentation system to recover the 3D structure and semantics of a scene.

  • Computer Graphics, Computer Vision, Intelligent Robotics, Photogrammetry and Remote Sensing
  • Semester Project
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