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Call for Papers

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Deadline: October 28, 2021, 11:59 pm EDT

Symposium SF14—Novel Frontiers in 3D and 4D Multi-Photon Micro-Fabrication—Materials, Methods and Applications

Microfabrication techniques that allow a fine 3-dimensional spatial control are revolutionizing the ways we design functional microdevices. By combining the possibility of obtaining complex architectures with high reproducibility and fast-throughput, researchers from diverse fields and backgrounds are pushing the boundaries of micromachinery, photonics, surface design, microrobotics, and biomedical sciences. Multi-photon lithography (also known as direct laser writing) is an established technique that combines the advantages of 3D-printing with sub-micron resolution. Recent developments have shown the potential of this technology to realize structures with unprecedented complexity, innovative functionalities, and dynamic functions. To achieve this, focus has been divided between material and method. Material scientists have achieved significant development of functional photoresists, which encompasses nanomaterial inclusion, photoinitiators with enhanced two-photon absorption and biocompatibility, and soft and responsive hydrogels. Concurrently, greater understanding of reaction mechanisms, computational analysis, and development of optical systems, have made considerable inroads in extending the limits of resolution, fabrication speed, and application. This symposium aims to congregate scientists working in the broader direct laser writing field, to document recent progress, and to critically analyze the opportunities and challenges for the future.

Topics will include:

  • Fundamental understanding of multi-photon absorption
  • Novel photoresist formulation for multi-photon polymerization
  • Functional and responsive materials for direct laser writing
  • Post-fabrication chemical functionalization and modification
  • Template generation for replication on the micro-/nanoscale
  • Fast prototyping methods for 3D-microfabrication
  • 4D microstructures
  • Novel approaches toward improved resolution
  • Subtractive manufacturing at the micro- nanoscale
  • Integration of 3D microstructures into functional devices and prototypes
  • Application of 3D microstructures (e.g. anti-counterfeiting technology, microelectronics, biomedical devices, tissue scaffolds, micro-robotics, microfluidics, optics and photonics)
  • Bioinspired solutions via direct laser writing
  • Novel MEMS fabrication technologies and designs
  • A tutorial complementing this symposium is tentatively planned.

Invited Speakers (tentative):

  • Christopher Barner-Kowollik (Queensland University of Technology, Australia)
  • Chiara Daraio (California Institute of Technology, USA)
  • Maria Farsari (Institute of Electronic Structure and Laser, Foundation for Research and Technology - Hellas, Greece)
  • John Fourkas (University of Maryland, USA)
  • Qi Ge (Southern University of Science and Technology, China)
  • Harald Giessen (Universität Stuttgart, Germany)
  • Julia Greer (California Institute of Technology, USA)
  • Bradley Nelson (ETH Zürich, Switzerland)
  • Sara Nocentini (University of Florence, Italy)
  • Benjamin Richter (Nanoscribe GmbH, Germany)
  • Metin Sitti (Max Planck Institute for Intelligent Systems, Germany)
  • Martin Wegener (Karlsruhe Institute of Technology, Germany)

Symposium Organizers

Virgilio Mattoli
Istituto Italiano di Tecnologia
Center for Materials Interfaces
Italy

Eva Blasco
Heidelberg University
Centre for Advanced Materials
Germany

Larisa Florea
Trinity College Dublin
School of Chemistry & AMBER, the SFI Research Centre for Advanced Materials and BioEngineering Research
Ireland

Shlomo Magdassi
The Hebrew University of Jerusalem
Casali Center, Institute of Chemistry
Israel

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