Commercial Projects

Advanced Materials Cover Design

Client: Advanced Materials Journal

As part of a publication for Miriam Filippi in Advanced Materials regarding "Microfluidic Tissue Engineering and Bio-Actuation" I was tasked to design a possible cover for the upcoming issue of the Advanced Materials journal. The Rendering was accepted as the backcover of the Advanced Materials Vol.34 No 23 from the 9. June 2022.

Published in Advanced Materials View Publication

Advanced Healthcare Materials Cover

Client: Neuroengineering Materials Group, Technical University Munich

Created a cover design for the Neuroengineering Materials Group at TUM, showcasing their groundbreaking research on magnetoelectric nanoparticles for neural stimulation and tissue engineering. The cover visually represents their innovative approach to using magnetic fields to control neural activity through nanoparticle-mediated stimulation, bridging the gap between materials science and neuroengineering. This research has significant implications for developing non-invasive neural interfaces and advanced therapeutic approaches for neurological disorders.

Published in Advanced Healthcare Materials View Publication

Advanced Healthcare Materials Cover - Artificial Muscle Fibers

Client: Miriam Filippi, ETH Zurich

Created a cover design for Miriam Filippi's pioneering research on 3D-printed artificial muscle fibers. The cover visually represents the innovative biofabrication process where living cells are precisely arranged in 3D-printed hydrogel structures to create functional muscle tissue constructs. This cutting-edge approach combines advanced 3D printing technology with tissue engineering principles to develop artificial muscles that can contract and respond to electrical stimulation, opening new possibilities for regenerative medicine and biohybrid robotics.

Published in Advanced Healthcare Materials View Publication

Nature Cover for ETH Zurich

Nature Cover for ETH Zurich

Client: Soft Robotics Lab, ETH Zurich

Created a series of cover designs for the Soft Robotics Lab at ETH Zurich, showcasing their pioneering research on soft robotic human hands and assistive devices. The lab specializes in developing biomimetic soft robotic systems that replicate the dexterity and adaptability of human hands, using advanced materials and innovative manufacturing techniques like 3D printing. Their work focuses on creating robotic hands that can perform complex manipulation tasks with human-like precision, opening new possibilities for prosthetics, rehabilitation, and human-robot interaction.

Nature Publication View Research Lab

Nature Cover Helmholtz Zentrum

Nature Cover Helmholtz Zentrum

Client: Experimental Genetics Lab, Helmholtz Zentrum München

Created a series of cover designs for the Westmeyer Lab at Helmholtz Zentrum München, showcasing their cutting-edge research in experimental genetics and molecular imaging. The lab specializes in developing advanced imaging techniques to study cellular processes and genetic modifications in real-time. Their work focuses on understanding fundamental biological mechanisms through innovative visualization methods, combining molecular biology with state-of-the-art imaging technology to advance our understanding of cellular behavior and genetic regulation.

Nature Publication View Research Lab

CellFace Blood Analytics

Client: Technical University Munich

CellFace is a project run by Technical-University-Munich. At its core stands the development of a blood analytics device that uses an innovative microfluidics system and state of the art segmentation algorithms to do rapid high throughput and label free cell counts. This allows for a detailed blood analysis that can be used for diagnosis of many different diseases or for fundamental research.

TUM Research Project View Project

Research Visualization

Client: Miriam Filippi

Created a research visualization showcasing Miriam Filippi's groundbreaking work on artificial muscle fibers and 3D tissue engineering. The video demonstrates how living muscle cells can be precisely arranged in large-scale 3D-printed structures through innovative biofabrication techniques. A key breakthrough in this research is the integration of perfusable channels within the 3D printed arrangements, which provide essential nutrients and oxygen to the growing muscle tissue, enabling the creation of centimeter-scale functional muscle constructs that can survive and contract outside traditional laboratory conditions.

ETH Zurich Research View Researcher Profile

Website Creation Biohybrid-Robotics-Symposium

Client: Biohybrid-Robotics-Symposium 2025

Developed a comprehensive website for the Biohybrid Robotics Symposium 2025, an international conference bringing together researchers working at the intersection of robotics and biological systems. The symposium focuses on biohybrid robots that combine artificial components with living biological materials, such as muscle tissue, neurons, and other cellular systems. The website serves as the central hub for conference information, registration, and research dissemination. Both the backend and frontend were created from scratch, along with all custom artwork and research visualizations featured throughout the site.

Web Development View Website

Arm Prosthesis Visualization

Client: IN-HAND Lab, Technical University Munich

Working with the IN-HAND (Intelligent Neuroprostheses and Human Robotics) Lab at TUM, I created visualizations for their cutting-edge bionic prostheses research. The IN-HAND Lab focuses on developing advanced prosthetic arms with sophisticated myoelectric control systems and human-centered design principles. Their research combines engineering, biology, and medicine to create safe, effective, and user-friendly robotic technologies that significantly improve the quality of life for patients with upper limb disabilities.

TUM Research Project View Research Lab

IGEM Competition Visualization

Client: IGEM Team Munich 2019

IGEM is a worldwide competition between universities where each team tries to find a novel advancement in synthetic biology. As part of the team Munich of 2019 I designed an animation showcasing our idea of "exporting" important information of any living cell by genetically modifying it so it secretes samples of its RNA content in tiny vesicles that can then be analyzed without having to take the cells out of their habitat or killing them.

IGEM Competition View Project

Biohybrid Robot Grant Application

Biohybrid Robot Grant Application

Client: ETH Zürich

For this project several renders and videos had to be created to showcase the idea of a biohybrid robot that has a complex eye-like engineered tissue construct with the ability of neuron regeneration. These renderings were then used to present a grant application for cutting-edge biomedical research.

Grant Application ETH Zürich Research

Artificial Heart Actuator

Client: ETH Zürich

In this project a novel actuator technology was visualized that could be used as an artificial heart. The visualization demonstrates the complex mechanical and biological interactions required for such a sophisticated medical device, showing both the technical specifications and the potential medical applications.

Medical Device Research ETH Zürich

Nanobots Movie Scene

Client: Film Production

This short animation of nanobots repairing holes in clothing inside a washing machine was requested by a short film producer for an exhibition. The shot had to seamlessly combine the intro clip of a running washing machine with the 3D animation, creating a believable integration of real footage and computer-generated content.

Film Production Exhibition Display

Photogrammetry 3D Models

Client: CG-Trader Marketplace

Photogrammetry uses images taken from all sides of a real world object to create a fully textured high resolution 3D model. I am currently using this procedure to quickly produce realistic 3D models and selling them on CG-Trader, providing high-quality assets for various industries and applications.

CG-Trader Marketplace View Store