On-demand webinars
Get insights into cutting-edge microfabrication technologies
Learn about the benefits of our microfabrication technologies and systems to check the opportunities for your application in research and manufacturing.
New On-demand webinar 09
3D printing of vascularized tissues
Gain insight into tissue fabrication and in vitro vascularization, presented by Prof. Adrian Ranga (KU Leuven) and Dr. Marc Hippler (Nanoscribe) and explore the possibilities with our Quantum X bio, the world’s most accurate 3D bioprinter, in a live demo. Our experts present 3D printing at the scale of tissues and vessels and applications for tissue engineering, disease modeling, drug discovery and in regenerative medicine:
Agenda
- The role of tissue models and organoids with a focus on vascularization
- Quantum X bio – features, materials and new applications
- 3D printing at the scale of biological tissues and vessels in a live demo
- Application scenarios, use cases and future outlook
- Q&A session
Experts in this webinar
Prof. Adrian Ranga
Adrian Ranga is Associate Professor at KU Leuven, Allen Distinguished Investigator, and organoid vascularization pioneer. He completed his PhD at EPFL, and a post-doctoral fellowship at Harvard Medical School. He leads the way in actuation and perfusion technologies and in bioengineering approaches for in-vitro organoid models.
Dr. Marc Hippler
Marc Hippler is Materials Development Expert at Nanoscribe GmbH & Co. KG. Before joining Nanoscribe, he completed his PhD at the Karlsruhe Institute of Technology on 3D Laser Lithography of Stimuli-Responsive Hydrogels. He is now project leader of the Quantum X bio product development and investigates, and develops novel materials for 3D biofabrication.
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New On-demand webinar 08
Aligned 3D printing
on photonic chips
Get insights into 3D aligned microfabrication on photonic chips and how it drives innovations in quantum physics based communication and light detection systems. Experience a live demo session of our Quantum X align system to find out more about its Aligned 2-Photon Lithography (A2PL®) technology for innovative applications.
Agenda
- Future PIC & photonics packaging technologies
- Quantum physics based communication systems
- Features of Aligned 2-Photon Lithography (A2PL®)
- Quantum X align photonic chip printing live demo
- Highlight applications and benchmark projects
- Q&A session
Experts in this webinar
Prof. Wim Bogaerts
Wim Bogaerts is a professor at Ghent University and the IMEC nanotechnology research center in Belgium. He is the co-founder of Luceda Photonics and the driving force behind the development of IMEC's silicon photonics technology. Currently his research focuses on large-scale photonic circuits and of programmable photonics.
Dr. Wladick Hartmann
Wladick Hartmann is co-founder and Chief Technology Officer (CTO) of Pixel Photonics, a German quantum technology start-up. He is an expert in the field of laser technology and optoelectronics. Before his involvement at Pixel Photonics his research focused on single-photon detectors and nanophotonic integrated spectrometers.
Mareike Trappen
Mareike Trappen is Senior Process Engineer at Nanoscribe GmbH & Co. KG. Before, she worked on 3D-micro opto-mechanical elements produced by two-photon laser lithography at KIT. As project lead of the Quantum X align development she strives to bring Aligned 2-Photon Lithography (A2PL®) to Nanoscribe’s customers.
Log in for our premium resources or create your own premium account first to watch the one-hour on-demand webinar about miniaturized optics and efficient interconnects for photonics packaging.
On-demand webinar 07
3D printed
cell culture microenvironments
Gain insight into how to overcome the limitations of 2D monolayer cell cultures and make the most of 3D printing at the scale of biological cells and tissues for cell culturing by amazingly mimicking biological structures. Experience a Quantum X bio live demo session and learn more about the concept of 3D cell microenvironments.
Agenda
- Cell culture models and mechanobiology concepts
- Biofabrication of 3D cell microenvironments
- Quantum X bio – features, materials, new applications
- 3D printing of cell scaffolds in a live demo
- Application scenarios, use cases and future outlook
- Q&A session
Experts in this webinar
Prof. Angelo Accardo
Angelo Accardo is Assistant Professor at Delft University of Technology, Department of Precision and Microsystems Engineering. His research group conceives multi-scale 3D fabrication paradigms for fundamental cell mechanobiology, in vitro disease modeling and treatment. He is the author of more than 50 peer-reviewed publications, 4 book chapters, and the lead inventor on 1 industrial patent.
Dr. Benjamin Richter
Benjamin Richter is Application Manager at Nanoscribe and develops microfabrication processes and applications for the life sciences. Before, he completed an interdisciplinary PhD thesis on “Selective Biofunctionalization of 3D Microstructures” in the groups of Prof. Wegener, Prof. Bastmeyer and Prof. Barner-Kowollik at KIT.
Log in for our premium resources or create your own premium account first to watch the one-hour on-demand webinar about biofabrication of microphysiological models with enhanced cellular behaviors in vitro.
On-demand webinar 06
Aligned 3D printing
on optical fibers
Experience aligned 3D printing on optical fibers and discover miniaturized optics and efficient interconnects for photonics packaging. Get insights into our Quantum X align workflow during a live demo session and find out more about its Aligned 2-Photon Lithography (A2PL®) technology for innovative applications, e.g. miniaturized fiber-based optics and photonics packaging.
Agenda
- Basics of aligned 3D printing
- Workflow of aligned 3D printing on fibers with Quantum X align live demo
- Novel ideas and technologies for photonics packaging
- Recorded Q&A sessions of the live webinar
Experts in this webinar
Dr. Simon Thiele
Dr. Simon Thiele is Chief Technology Officer (CTO) at Printoptix, a German spin-off of the University of Stuttgart. After studying microsystems engineering at the University of Freiburg, Germany, where he graduated in 2012, he worked at the Institute for Applied Optics (ITO) at the University of Stuttgart on his doctoral thesis "Design, simulation and process optimization for 3D direct laser writing of microoptics". He received his PhD in 2019 summa cum laude and kept working at the ITO as head of the optical design team.
Jeroen Duis
Jeroen Duis is Chief Commercial Officer (CCO) at PHIX Photonics Assembly, a Dutch manufacturing service provider for photonics packaging. He received his bachelor’s degree from the Technical University of Rijswijk in 2001. After his study he worked several years with TE Connectivity and SMART Photonics. Since 2018, he joined PHIX in his position responsible for commercial activities and strategic direction for hybrid packaging. He is the author and co-author of several publications and holds 15 patent applications in the field of optical interconnection technology.
Dr. Stephan Dottermusch
Dr. Stephan Dottermusch is Application Engineer at Nanoscribe. In his master thesis at KIT, the physicist worked on photonic wire bonding for fiber-to-chip applications. In the course of his PhD in electrical engineering, he developed textures for photovoltaics by direct laser writing. As a PostDoc at KIT he investigated luminescent solar concentrators of optical fiber lasers. His focus at Nanoscribe is Aligned 2-Photon Lithography (A2PL®), for instance for printing on optical fibers.
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On-demand webinar 05
Scaling up
nano- and microfabrication
Discover how to scale up the fabrication of advanced nano- and microstructures on an industrial scale using Two-Photon Grayscale Lithography (2GL ®). Get insights into our Quantum X workflow during a live demo session and find out more about rapid prototyping and mastering.
Agenda
- Technical options for scaling up to mass production
- Software demonstration of the Quantum X
- Nanoimprint lithography - feasibility assessment to production line
- Recorded Q&A sessions of the live webinar
Experts in this webinar
Dr. Marek Krehel
Marek Krehel is CTO at 3D AG. He received his PhD from ETH Zürich on the application of polymeric optical fibres in biomedical sensing. In 2017 he joined 3D AG, a micro and nanotechnology tooling center. He now focuses on microstructure mastering, upscaling and replication on an industrial scale.
Dr. Aaron Kobler
Aaron Kobler, Team Lead of the Nanoscribe Customer Success Team, received his PhD in the field of materials science at the Technical University of Darmstadt. Before Aaron started at Nanoscribe in 2017, he worked for ZEISS in Boston (USA). Now he applies his expertise in 3D Microfabrication based on Two-Photon Polymerization and Two-Photon Grayscale Lithography.
Christine Thanner
Christine Thanner is Technology Development Engineer at EV Group with focus on Nanoimprint Lithography. She graduated from the Fachhochschule München and worked for Siemens developing epitaxy processes for VICSEL lasers before joining Infineon as metrology and failure mode analysis engineer. Christine joined EV Group in 2002 where she got deeply involved in Nanoimprint Technology.
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On-demand webinar 04
Microneedles
for medical applications
Watch this webinar for insights into state-of-the-art 3D printing solutions, rapid prototyping, series production and use cases.
Agenda
- Basics and principles of 2PP-based 3D Microfabrication
- Overview on microneedles for medical applications
- Live demo of printing microneedles & advanced materials with Quantum X bio
- Cutting-edge microneedles research, applications and use cases
- Recorded Q&A sessions
Experts in this webinar
Prof. Ryan Donnelly
Ryan Donnelly is Professor and Chair of Pharmaceutical Technology at Queen’s University Belfast. Currently, his research is focused on novel polymeric microneedle arrays for transdermal administration of drugs and intradermal delivery of vaccines and photosensitizers. Ryan Donnelly is Board Member of the Academy of Pharmaceutical Sciences and the Communications Chair of the Controlled Release Society. He also is a Visiting Scientist at the Norwegian Institute for Cancer Research, where he is an Associate Member of the Radiation Biology Group.
Dr. Benjamin Richter
Dr. Benjamin Richter is physicist with focus on biophysics and 3D microstructures. Before he started at Nanoscribe in 2017, he graduated with an interdisciplinary PhD thesis about “Selective Biofunctionalization of 3D microstructures” in the groups of Prof. Wegener, Prof. Bastmeyer and Prof. Barner-Kowollik at KIT. Benjamin Richter works as application manager at Nanoscribe with a focus on the development of microfabrication processes and applications in the field of Life Sciences.
Log in for our premium resources or create your own premium account first to watch the one-hour on-demand webinar about Two-Photon Polymerization-based 3D printing and its capabilities for the fabrication of microneedles for medical applications.
On-demand webinar 03
3D Microfabrication
in Materials & Life Science Engineering
Watch this webinar for insights into state-of-the-art 3D printing solutions and biocompatible materials for cell behavior studies and tissue engineering.
Agenda
- Basics and principles of 2PP
- Special requirements on microfabrication in life sciences
- Quantum X shape live demo
- Cutting-edge life science engineering applications
- Recorded Q&A sessions
Experts in this webinar
Prof. Alice White
Alice White is Professor and Chair of Mechanical Engineering at Boston University and joined the College of Engineering in 2013 after a 30-year career at Bell Labs. In 2014, she established the Multiscale Laser Lithography Lab and purchased a Nanoscribe to develop mechanical metamaterials for biological studies. She is a fellow of the American Physical Society, the IEEE Photonics Society, and the Optical Society of America.
Dr. Benjamin Richter
Dr. Benjamin Richter is a physicist with a focus on biophysics and 3D microstructures. Before joining Nanoscribe in 2017, he completed his PhD with an interdisciplinary thesis on “Selective Biofunctionalization of 3D microstructures” in the groups of Prof. Wegener, Prof. Bastmeyer and Prof. Barner-Kowollik at Karlsruhe Institute of Technology (KIT).
Log in for our premium resources or create your own premium account first to watch the one-hour on-demand webinar about advanced 3D Microfabrication concepts and materials for cutting-edge applications in materials and life science engineering.
On-demand webinar 02
Additive manufacturing
with ultra-fast voxel tuning
Learn about the capabilities of Two-Photon Grayscale Lithography (2GL ®) for super smooth and shape-accurate 2D and 2.5D topographies. In a Nanoscribe Quantum X demo session, you will get exclusive insights into the workflow and print job preparation with our maskless lithography system.
Agenda
- Basics and principles of 2GL
- Software demonstration of the Quantum X
- Cutting-edge microoptics applications
- Recorded Q&A sessions of the live webinar
Experts in this webinar
Prof. Dr. Harald Giessen
Holding the Chair for Ultrafast Nanooptics in the Department of Physics at the University of Stuttgart, Harald Giessen is also Co-Chair of the Stuttgart Center of Photonics Engineering (SCoPE) and Fellow of the Optical Society of America. In 2018, 2019, and 2020, he was named „Highly Cited Researcher“ (top 1%) by the Institute of Scientific Information.
Alexander Legant
With his diploma in Physics from the Heidelberg University Alexander Legant joined Nanoscribe in September 2010. He worked there both as a service engineer and as a sales manager for Europe and North America. Currently, he is taking care of the EMEA region.
Dr. Aaron Kobler
He received his doctorate in the field of materials science at the Technical University (TU) of Darmstadt. Before Aaron Kobler started at Nanoscribe in 2017, he worked for ZEISS in the Helium Ion Microscopy Department located in Boston (USA).
Log in for our premium resources or create your own premium account first to watch the one-hour on-demand webinar about the breakthrough technology for prototyping and mastering of 2D and 2.5D topographies.
On-demand webinar 01
3D Microfabrication
with highest precision and speed
Discover the breakthrough technology for 3D printing nano-, micro- and mesoscale objects with amazingly fine features down to the submicrometer range. In the webinar, you will also learn about our Dynamic Precision Printing modes to find the optimal balance between precision and speed in high-precision additive manufacturing.
Agenda
- Quality properties of 2PP
- Workflow, processes and software of high-precision 3D printing
- Benchmark applications in research and manufacturing
- Recorded Q&A sessions of the live webinar
Experts in this webinar
Prof. Dr. Martin Wegener
Professor Dr. Martin Wegener is Department head of the Institute of Nanotechnology (INT) at the Karlsruhe Institute of Technology (KIT) and Spokesperson of the Cluster of Excellence “3D Matter Made to Order”. He is one of the world’s leading nanoscientists and Professor at the Institute of Applied Physics at KIT.
Dr. Benjamin Richter
Dr. Benjamin Richter is physicist with focus on biophysics and 3D microstructures. Before he started at Nanoscribe in 2017, he graduated with an interdisciplinary PhD thesis about “Selective Biofunctionalization of 3D microstructures” in the groups of Prof. Wegener, Prof. Bastmeyer and Prof. Barner-Kowollik at KIT.
Log in for our premium resources or create your own premium account first to watch the one-hour on-demand webinar about the benefits of 2PP in high-precision 3D printing
Free registration for premium resources
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