Germany – PhD in Xolographic Biofabrication at Heidelberg University

Germany – PhD in Xolographic Biofabrication at Heidelberg University Join the Germany – PhD in Xolographic Biofabrication at Heidelberg University role at PhDFinder . University: Heidelberg UniversityCountry: GermanyDeadline: Fields: Biomedical Engineering, Materials Science, Chemistry, Bioengineering, Tissue Engineering Are you driven to revolutionize tissue engineering by developing cutting‑edge methods for creating vascularized tissue models? If you aspire to contribute to transformative advances in biofabrication and make a tangible impact on biomedical research, this opportunity at Heidelberg University could be the next step in your academic journey. About The University Or Research Institute Heidelberg University, founded in 1386, is one of Germany’s oldest and most prestigious research universities. Renowned for its commitment to academic excellence and innovation, the university is located in the picturesque city of Heidelberg—a vibrant hub for science and technology in Europe. The Center for Molecular Biology (ZMBH) is a leading research institute within the university, fostering interdisciplinary collaboration and cutting‑edge discovery in the life sciences. As a member of the Cluster of Excellence “3D Materials Made to Order” (3DMM2O), Heidelberg University collaborates closely with the Karlsruhe Institute of Technology, providing unparalleled access to state‑of‑the‑art facilities and research infrastructure. Germany itself is recognized for its strong research funding, international academic environment, and high quality of life, making it an ideal destination for ambitious doctoral candidates. Research Topic and Significance The advertised PhD position focuses on “Xolographic biofabrication of in vitro vascularized tissue models.” Xolography represents a revolutionary approach in tissue engineering, allowing for the rapid, volumetric fabrication of complex, perfusable tissue constructs. Unlike traditional layer‑by‑layer bioprinting, xolographic biofabrication utilizes intersecting light fields to generate entire 3D structures within seconds, significantly reducing mechanical stress on encapsulated cells and enabling the creation of intricate vascular networks with high spatial resolution. The development of reliable vascularized tissue models is vital for advancing tissue engineering, disease modelling, and drug testing, as vascularization is essential for maintaining cell viability and mimicking physiological function. This research holds the promise to accelerate biomedical innovation and improve the translation of engineered tissues into clinical and pharmaceutical applications. Project Details The Position Is Based In The Laboratory Of Prof. Dr. Daniela Duarte Campos At The ZMBH. The Duarte Campos Lab Is At The Forefront Of Investigating Biofabrication Technologies And Biomaterials To Engineer Tissues And Organs, Exploring Their Effects On The Structure And Function Of Living Systems. As Part Of The Collaborative 3DMM2O Cluster Of Excellence, The Project Will Leverage The Combined Expertise And Infrastructure Of Heidelberg University And Karlsruhe Institute Of Technology. The Successful Candidate Will Be Involved In Developing And Characterizing Vascularized In Vitro Tissue Models Using Advanced Techniques, Including: Preparation and handling of natural and synthetic bioinks 2D and 3D cell culture of primary human cells and cell lines Xolographic fabrication and refinement of printing parameters Tuning bioink stiffness and measurement with nanoindenter Histological and immunofluorescence staining Two‑photon imaging and qPCR The position offers a stimulating international research environment, access to state‑of‑the‑art equipment, and a competitive salary based on the TV‑L scale (E13). The initial contract is for two years (75 % position), with the possibility of extension, and is expected to start in April 2026. Candidate Profile Ideal Applicants Should Possess A Master’s degree in Biomedical Engineering, Materials Science, Chemistry, Bioengineering, or related disciplines Previous experience in hydrogel handling, 3D (bio)printing, microscopy, cell culture, and/or microfluidic systems is preferred Excellent academic achievements and strong English language skills High motivation to work in an international, collaborative research environment Ability to work independently and as part of a multidisciplinary team Application Process Applications should be submitted as a single PDF file including a letter of motivation, CV, copies of transcripts, and the names of 2‑3 referees. Please refer to the official advertisement for application details. For More Information, Please Visit Conclusion This is an exceptional opportunity for motivated researchers to join a leading European university and contribute to pioneering advances in tissue engineering and biofabrication. If you are passionate about interdisciplinary biomedical research and eager to develop innovative solutions for real‑world challenges, you are strongly encouraged to apply. Seniority Level Internship Employment Type Full‑time Job Function Research, Analyst, and Information Technology Industries Education #J-18808-Ljbffr