02.12.2021NANO COLLOQUIA S3 Avinash Vikatakavi
Date and Time: December 2, 2021 - 15.00 ONLINE
25.11.2021Producing electricity from heat losses: engineered in Pisa the first device capable of achieving it in a controlled manner
It is now possible to create a new generation of “smart” thermoelectric systems to generate clea...
23.11.2021il progetto RIMMEL @ MECSPE - Bologna 2021
Si svolgerà martedì 23 novembre, dalle 16.45 alle 17.45 (Sala Concerto c/o Centro Servizi – Bolo...
19.11.2021Graphene as a solid lubricant becomes super-slippery
Cnr Nano researchers in collaboration with Sussex University and Rice University studied the frictio...
17.11.2021International Workshop on Advanced Materials-to-Device Solutions for Synaptic Electronics
CNR Nano and ICN2 organized the
03.11.2021The RIMMEL Project @ l'Europa è qui 2021 – VOTE THE VIDEO ONLINE
The RIMMEL project enters the “Europe is here ...
11.10.2021Quantum computers become an experimental physics laboratory
A quantum computer is a machine designed to do calculations. Now a group of physicists from CnrNano,...
05.10.20212021 Nobel Prize for the discoveries on TRPV1 and PIEZO receptors
The seminal discoveries by this year’s Nobel Laureates have explained how heat, cold and touch can...
home » surfaces and interfaces: nanofabrication, imaging & spectroscopy » materials and strategies for 4d prin
7. Materials and strategies for 4D printing: Contact person: Andrea Camposeo Luana Persano Additive manufacturing processes are rapidly evolving from prototyping tools to truly manufacturing systems, thanks to the recent progresses in terms of maximum size of the printed structures and available materials. In such fields the development of adaptive and stimuli-responsive components through 4D printing approaches is expected to have a deep impact. This activity is aimed at shedding new light on the fundamental aspects of three-dimensional polymerization and melt extrusion processes, thus establishing new process design rules and predictive tools for improving printing resolution. It will also specifically engineer additive manufacturing for printing polymeric materials embedding active molecular compounds, thus leading to structures that have three-dimensional features and time-changing physical properties at the same time.