Descripción del proyecto
Tecnología mejorada para la nanoimpresión tridimensional
La nanolitografía es un campo al alza de técnicas dentro de la nanotecnología que implica el diseño de estructuras nanométricas. Este campo tiene un interés especial para la ingeniería informática, ya que brinda a los expertos la oportunidad de crear microprocesadores y chips de memoria de superalta densidad. Entre los mayores retos del mercado de la nanolitografía está la reducción de costes y el tiempo dedicado al proceso de creación de prototipos y fabricación, así como la posibilidad de utilizar una gama más amplia de materiales. El objetivo del proyecto financiado con fondos europeos ATOPLOT es abordar estos retos y mejorar las capacidades del nanofabricador ATLANT3D para la tecnología de nanoimpresión tridimensional.
Objetivo
Micro- and nanofabrication represents important mainstream manufacturing processes across several industrial fast-growing sectors, such as MEMS & sensors, optics & photonics, RF devices, semiconductors, printed electronics, which in turn are significant building blocks in e.g. advanced healthtech, biotech, cleantech, and electronics. Yet, to improve the market stance, the micro-/nanofabrication sector is looking for solutions able to reduce costs and time spent on the prototyping and fabrication process, as well as more flexible, efficient and sustainable solutions, able to utilize a broader range of materials permitting custom-built components. While the most promising technology to address these challenges is found in the 3D printing market, there are currently no available 3D printers or technologies with the capabilities to address these challenges. To this purpose, ATL (DK) has developed the ATLANT3D Nanofabricator, a 3D nanoprinting technology with improved resolution and flexibility, while costing less 27% than the closest 3D printing competitor, and up to 92% less than conventional competitors. It will enable rapid prototyping, shorter time to market and lower barriers for companies and researchers already working in this field, as well as those for whom micro-/nanoprototyping is currently not feasible.
The overall aim of ATOPLOT project is to mature, extend capabilities and prove full functionality and benefits of the ATLANT3D Nanofabricator. ATOPLOT brings together a consortium of three SMEs (ATL, FEM, SEMPA) and two academic partners (FAU, SAS) – in unison representing a technical side specialized in nanofabrication, and a business side with experience in business development and B2B sales & marketing. The consortium expects a successful market introduction of the Nanofabricator within the next 3 years, tapping into a large business opportunity, from which the partners stand to capture more than 400M€ as profit and directly creating 165+ new jobs.
Ámbito científico
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
- natural sciencesphysical sciencesoptics
- natural sciencesphysical scienceselectromagnetism and electronicssemiconductivity
- engineering and technologymechanical engineeringmanufacturing engineeringadditive manufacturing
Palabras clave
Programa(s)
Régimen de financiación
IA - Innovation actionCoordinador
91054 Erlangen
Alemania