3D Matter Made to Order

Explore the latest Special Issue of Advanced Functional Materials (Volume 34, Issue 20), featuring groundbreaking research from our Cluster of Excellence 3D Matter Made to Order (3DMM2O). This issue focuses on advances in digital 3D additive manufacturing, covering innovations from the molecular and nanometer scale to larger micro- and macroscale applications. The articles explore how these technologies are pushing the boundaries of engineering and the life sciences, offering new solutions to previously unsolvable challenges. Learn more about the future of 3D printing and the pioneering work of 3DMM2O.

Don’t miss your chance to attend the Future 3D Additive Manufacturing – 3DMM2O Conference 2025, taking place from March 23–27, 2025, at the historic Schöntal Monastery. The registration deadline is January 31, 2025 – secure your place now! This year’s focus is on Additive Nano- and Micro-Fabrication, with topics such as photonic neural networks, bioelectronic devices, and recyclable electronics. Engage with leading experts, discover the latest advances and explore the future of 3D additive manufacturing at this unique event.

Cluster Doctoral Researchers Yan Liu and Christian Rainer, Principal Investigators Uli Lemmer, Christof Wöll, and Jasmin Aghassi-Hagmann, and Cluster Alumnus Hongrong Hu, have successfully integrated HKUST-1, a metal-organic framework (MOF), into inkjet-printed memristors. These advanced memory devices operate at ultra-low voltages (~1V), achieve resistance changes up to 10,000 times, and remain stable over more than 60 write-erase cycles. This innovation combines the precision of inkjet printing with the unique properties of MOFs, paving the way for scalable, sustainable, and next-generation electronics.

Our Principal Investigator, Prof. Dr. Kerstin Göpfrich of the Heidelberg University, has been funded by the prestigious Allen Distinguished Investigator Program of the Paul G. Allen Family Foundation. Her project, in collaboration with researchers in Austria and the United Kingdom, will investigate how chemical exchange processes influence cell shape and the role of active membranes in cellular communication. The Foundation is providing $1.5 million for this groundbreaking research, which combines simulations, synthetic membrane systems, and in vivo experiments to unravel this newly hypothesized mechanism.

Our Principal Investigator, Prof. Dr. Wolfram Pernice from the Heidelberg University, has been awarded the prestigious Gottfried Wilhelm Leibniz Prize by the German Research Foundation (DFG). The award recognizes his pioneering work in integrated photonics, particularly in the development of neuromorphic photonic computing for energy-efficient AI and quantum technologies. The prize, the most prestigious research award in Germany with a purse of 2.5 million euros, highlights his groundbreaking interdisciplinary research spanning physics, computer science and engineering.

Explore the future of sustainable 3D printing in our latest Explain Like I’m Five video with Clara Vázquez-Martel, a Doctoral Researcher at the Heidelberg University. Clara explains her research on using microalgae and sunflower oil as eco-friendly alternatives to petroleum-based materials to create biocompatible, high-resolution 3D printing materials. By chemically modifying these natural resources, her work highlights a greener approach to advanced manufacturing. Don’t miss this inspiring insight into how science is making sustainability a reality. Watch it now in German!