Intelligence is defined as the ability to perceive information and to retain it as knowledge to be applied towards adaptive behaviour in a changing environment. Although intelligence is often considered a capability that is unique to humans and animals, this CRC is inspired by the vision that synthetic matter could provide artificial building blocks to enable intelligent abilities. Such intelligent matter would open entirely new scientific opportunities with a wealth of potential technological applications such as the development of artificial skin, soft robotics, and brain-inspired computing. Since it is unlikely that the level of complexity required for intelligent behaviour can be realized in a single material, intelligent matter can probably only be achieved in an integrated system of materials and nanoscale components. Hence, the central scientific question of this CRC is: How does intelligent behaviour emerge in a system of nanoscale building blocks that operate collectively? In the first funding period, we have focused on the progress from responsive matter to adaptive matter. Responsive matter contains embedded responsive building blocks that induce a change in properties upon exposure to an external stimulus, whereas adaptive matter has the additional capability to process feedback to regulate its properties. Ultimately, the CRC aims to develop intelligent matter which interacts with its environment, self-regulates its properties, and learns from the input it receives. Intelligent matter relies on the key functional elements of sensors, actuators, networks, and memory. In the first funding period, we have successfully implemented these key functional elements in three classes of adaptive matter (molecular systems, soft materials, and solid-state systems) demarcating the three research areas of the CRC. In the second funding period, we aim to advance from adaptive matter to learning matter. By integrating memory into adaptive matter, we will introduce learning capability. Memory functionality is provided by feedback mechanisms based on molecular switches and reconfigurable nanostructures. We will implement a variety of learning concepts, ranging from conditioning to artificial neural networks and with applications ranging from reservoir computing to material learning. We will increasingly integrate multiple key elements of intelligent matter into a single nanosystem. Our ambitious and interdisciplinary research programme is based on the concerted effort of a highly skilled team of project leaders from chemistry, physics, and related sciences. As a result of the synergy of experimental work with theoretical investigations and numerical simulations, the research programme converges toward the joint development of prototypes of artificial intelligent matter. Our pioneering research on intelligent matter enjoys worldwide recognition and further enhances the visibility of the nanosciences at the University of Münster.

DFG Programme Collaborative Research Centres

International Connection Netherlands

• A01 - Photoswitches for integration in adaptive nanosystems (Project Heads Glorius, Frank ;  Ravoo, Bart Jan )
• A02 - Preparation of functionalized alternating polymers and their application as switchable and adaptive soft materials (Project Head Studer, Armido )
• A03 - Interfacing self-assembly and multiple stimuli to create adaptive behaviour (Project Heads Fernandez-Huertas, Gustavo ;  Hansen, Michael Ryan ;  Neugebauer, Johannes )
• A04 - Developing tunable triplet emitters towards adaptive electroluminescent devices (Project Heads Doltsinis, Nikos L. ;  Strassert, Cristian Alejandro )
• A05 - Light-controlled anion-binding adaptive supramolecular systems (Project Heads Garcia Mancheno, Olga ;  Schönhoff, Monika )
• B01 - Towards intelligent light-propelled nano- and microsystems (Project Heads Denz, Cornelia ;  Rey, Marcel ;  Wittkowski, Raphael )
• B03 - Molecular control of adaptive interfaces and hierarchical soft matter (Project Heads Braunschweig, Björn ;  Heuer, Andreas )
• B04 - Multistimuli sensing with memory and feedback function using photoswitchable proteins (Project Head Wegner, Seraphine )
• B06 - Development of intelligent soft actuators based on hybrid materials (Project Heads Nijhuis, Christian ;  Ravoo, Bart Jan )
• B07 - Self-regulating soft materials: Feedback mechanisms for coupling photochemical reactivity and thermoresponsive properties (Project Heads Braunschweig, Björn ;  Muradi geboren Næsborg, Line Dahl )
• C02 - Opto-electronic neuromorphic architectures (Project Heads Bratschitsch, Rudolf ;  Pernice, Wolfram Hans Peter ;  van der Wiel, Wilfred )
• C03 - Self-assembly of hybrid nanostructures for brain-inspired electronics (Project Heads Heuer, Andreas ;  Ravoo, Bart Jan ;  van der Wiel, Wilfred )
• C04 - Adaptive magnonic networks for advanced nanoscale computing (Project Heads Bratschitsch, Rudolf ;  Demokritov, Ph.D., Sergej O. ;  Pernice, Wolfram Hans Peter )
• C05 - Coherent nanophotonic neural networks with adaptive molecular systems (Project Heads Risse, Benjamin ;  Schuck, Carsten )
• C06 - Mixed-mode in-memory computing using adaptive phase-change materials (Project Heads Pernice, Wolfram Hans Peter ;  Salinga, Martin )
• C07 - Dynamic redox switching in molecular junctions: Intelligent interfaces for neuromorphic computing (Project Heads Glorius, Frank ;  Hein, Robert ;  Nijhuis, Christian )
• C08 - Intelligent colour centre networks (Project Heads Niehues, Iris ;  Nijhuis, Christian )
• MGK - Adaptive Nanosystems: Principles and applications (Project Heads Rentmeister, Andrea ;  Salinga, Martin ;  Wegner, Seraphine )
• Z01 - Central Administration and Central Tasks of the Collaborative Research Centre 1459 (Project Head Ravoo, Bart Jan )

• A06 - A semi-synthetic nanosystem for programmable control of output based on rational design and directed evolution (Project Head Rentmeister, Andrea )
• B02 - Adaptive polymer morphologies through reversible block fragmentation (Project Heads Gröschel, André ;  Ravoo, Bart Jan )
• B05 - Adaptive cell-matrix nanosystems (Project Heads Grashoff, Carsten ;  Strassert, Cristian Alejandro ;  Trappmann, Britta )

Applicant Institution Universität Münster

Participating University Ruprecht-Karls-Universität Heidelberg; Universiteit Twente

Spokesperson Professor Dr. Bart Jan Ravoo