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Winter Innovations Festival: Sustainable, Additive, 3D, Flexible, Hybrid & Wearable Electronics (Free-To-Attend)

8 December 2023
2pm - 8pm

Berlin Time

Online Event

We invite engineers, researchers, entrepreneurs, inventors, and end users from around the world to join TechBlick's Winter Festival on 8 Dec 2023 online


#AdditiveElectronics #PrintedElectronics #3DElectronics #WearableTextiles #TextileElectronics  #SoftElectronics 

#SustainableElectronics


This is a carefully curated event weaving together fantastic talks with superb networking and immersive virtual exhibition where you can move around with your own avatar.


The programme will cover all the key applications and technological advancements, reflecting the beauty and diversity of this field.


The networking will happen on the immersive virtual platform and in round-robin speed networking sessions.


This event makes virtual interaction real and you will feel the buzz of meeting where you can have many spontaneous and serendipitous discussions.


Our last summer Innovations Festival 2023 had 700+ participants [not registrants]! 


Do not miss our Innovations Festival on 25 April 2024


If you wish to showcase your technology please write to khasha@TechBlick.com

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Leading global speakers include:
Encres DUBUIT
Epishine
National Research Council Canada
Copprium
PrintUp Institute
Molex
Voltera
Swansea University
Botfactory
Ceradrop
TRAQC
Saralon
INKATRONIC
Fraunhofer IKTS
GE Healthcare
Bayflex Solutions
Space Foundry
Novalia Ltd
Fraunhofer IFAM

Full Agenda

The times below are Berlin/Paris time

Saralon
Saralon
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Saralon

Saral Inks© for 3D- Printed Electronics

2:05 PM

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Felix Richter

Felix Richter

Business Developement Manager

Creation of 3D smart objects through IME involves high pressure-temperature processes. Saralon GmbH produces thermoformable inks for printed electronics that withstand such conditions without sacrificing functionality.

Saral Inks© for 3D- Printed Electronics

2:05 PM

Creation of 3D smart objects through IME involves high pressure-temperature processes. Saralon GmbH produces thermoformable inks for printed electronics that withstand such conditions without sacrificing functionality.

Watch Demo Video
Encres DUBUIT
Encres DUBUIT
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Encres DUBUIT

Inks based on cellulosic materials for flexible, conformable and stretchable printed electronics

2:25 PM

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Marie Goizet

Marie Goizet

Electronic devices continue to evolve. Flexible, stretchable, and deformable electronic devices constitute a growing topic of interest for a wide variety of application fields such as in safety, medical, sport or automotive fields. Encres Dubuit is now active in this field by working on the development of innovative bio-based inks specifically designed for printing flexible, conformable and stretchable electronic devices.
These inks, suitable for screen-printing, are based on silver and cellulosic materials. This biobased matrix is interesting thanks to its non-toxicity, its natural abondance and its specific outstanding properties. Regarding ink development, the bio-based matrix helps to disperse and
stabilize active particles. It is also used as a rheological agent to meet the printing processes requirements and acts as an adhesion promoter concerning the interaction with the substrate.
These innovative materials are used to develop stable conductive inks with different scope of application. Flexible transparent conductive inks with high opto-electrical properties without. any sintering have been first developed. Then, to go beyond flexibility, an ongoing project specifically focuses on stretchability by designing a stretchable cellulose-based binder for the ink. This innovative approach tends to develop the next expected generation of inks. The challenge is to maintain the percolation between the active particles within the ink film while minimizing the electrical properties variations under strains applied to printed device.
This stretchable technology of ink could be transposed to other systems including colored pigments or active materials (conductive, sensitive, etc) to confer stretchable features for a wide range of applications.

Inks based on cellulosic materials for flexible, conformable and stretchable printed electronics

2:25 PM

Electronic devices continue to evolve. Flexible, stretchable, and deformable electronic devices constitute a growing topic of interest for a wide variety of application fields such as in safety, medical, sport or automotive fields. Encres Dubuit is now active in this field by working on the development of innovative bio-based inks specifically designed for printing flexible, conformable and stretchable electronic devices.
These inks, suitable for screen-printing, are based on silver and cellulosic materials. This biobased matrix is interesting thanks to its non-toxicity, its natural abondance and its specific outstanding properties. Regarding ink development, the bio-based matrix helps to disperse and
stabilize active particles. It is also used as a rheological agent to meet the printing processes requirements and acts as an adhesion promoter concerning the interaction with the substrate.
These innovative materials are used to develop stable conductive inks with different scope of application. Flexible transparent conductive inks with high opto-electrical properties without. any sintering have been first developed. Then, to go beyond flexibility, an ongoing project specifically focuses on stretchability by designing a stretchable cellulose-based binder for the ink. This innovative approach tends to develop the next expected generation of inks. The challenge is to maintain the percolation between the active particles within the ink film while minimizing the electrical properties variations under strains applied to printed device.
This stretchable technology of ink could be transposed to other systems including colored pigments or active materials (conductive, sensitive, etc) to confer stretchable features for a wide range of applications.

Watch Demo Video
Encres DUBUIT
Encres DUBUIT
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Encres DUBUIT

Inks based on cellulosic materials for flexible, conformable and stretchable printed electronics

2:25 PM

joint
Short Demo
Guillaume Krosnicki

Guillaume Krosnicki

R&D manager chez Poly-Ink

Electronic devices continue to evolve. Flexible, stretchable, and deformable electronic devices constitute a growing topic of interest for a wide variety of application fields such as in safety, medical, sport or automotive fields. Encres Dubuit is now active in this field by working on the development of innovative bio-based inks specifically designed for printing flexible, conformable and stretchable electronic devices.
These inks, suitable for screen-printing, are based on silver and cellulosic materials. This biobased matrix is interesting thanks to its non-toxicity, its natural abondance and its specific outstanding properties. Regarding ink development, the bio-based matrix helps to disperse and
stabilize active particles. It is also used as a rheological agent to meet the printing processes requirements and acts as an adhesion promoter concerning the interaction with the substrate.
These innovative materials are used to develop stable conductive inks with different scope of application. Flexible transparent conductive inks with high opto-electrical properties without. any sintering have been first developed. Then, to go beyond flexibility, an ongoing project specifically focuses on stretchability by designing a stretchable cellulose-based binder for the ink. This innovative approach tends to develop the next expected generation of inks. The challenge is to maintain the percolation between the active particles within the ink film while minimizing the electrical properties variations under strains applied to printed device.
This stretchable technology of ink could be transposed to other systems including colored pigments or active materials (conductive, sensitive, etc) to confer stretchable features for a wide range of applications.

Inks based on cellulosic materials for flexible, conformable and stretchable printed electronics

2:25 PM

Electronic devices continue to evolve. Flexible, stretchable, and deformable electronic devices constitute a growing topic of interest for a wide variety of application fields such as in safety, medical, sport or automotive fields. Encres Dubuit is now active in this field by working on the development of innovative bio-based inks specifically designed for printing flexible, conformable and stretchable electronic devices.
These inks, suitable for screen-printing, are based on silver and cellulosic materials. This biobased matrix is interesting thanks to its non-toxicity, its natural abondance and its specific outstanding properties. Regarding ink development, the bio-based matrix helps to disperse and
stabilize active particles. It is also used as a rheological agent to meet the printing processes requirements and acts as an adhesion promoter concerning the interaction with the substrate.
These innovative materials are used to develop stable conductive inks with different scope of application. Flexible transparent conductive inks with high opto-electrical properties without. any sintering have been first developed. Then, to go beyond flexibility, an ongoing project specifically focuses on stretchability by designing a stretchable cellulose-based binder for the ink. This innovative approach tends to develop the next expected generation of inks. The challenge is to maintain the percolation between the active particles within the ink film while minimizing the electrical properties variations under strains applied to printed device.
This stretchable technology of ink could be transposed to other systems including colored pigments or active materials (conductive, sensitive, etc) to confer stretchable features for a wide range of applications.

Watch Demo Video
Copprium
Copprium
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Copprium

Copper Conductive Inks: Meeting the conductivity, cost, and scale challenges

2:45 PM

joint
Brian Bischoff

Brian Bischoff

Founder

Copper Conductive Inks: Meeting the conductivity, cost, and scale challenges

2:45 PM

Watch Demo Video
National Research Council Canada
National Research Council Canada
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National Research Council Canada

Flexible/stretchable Piezoelectric and Triboelectric Nanogenerators for Energy Harvesting and Self-powered Sensing

3:05 PM

joint
Dr. Yanguang Zhang

Dr. Yanguang Zhang

Research Officer
Advanced Electronics and Photonics

Flexible/stretchable Piezoelectric and Triboelectric Nanogenerators for Energy Harvesting and Self-powered Sensing

3:05 PM

Watch Demo Video
Break
Break
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Break

Meet The Exhibitors & Networking Break

3:25 PM

joint
Short Demo

Meet The Exhibitors & Networking Break

3:25 PM

Watch Demo Video
GE Healthcare
GE Healthcare
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GE Healthcare

Skin Electrode Adhesive Performance Testing

4:10 PM

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Laura Vornanen

Laura Vornanen

Product Development Engineer

How to make sure skin electrodes stays attached on the skin and patient monitoring is reliable without disruption from the adhesive detaching from the skin. Skin adhesive testing have many consideration and one biggest is how to evaluate adhesion durability by using an alternative test surface than skin. Testing skin adhesive on human subject brings other clinical study requirements and ethical committee approval to the table. This presentation will explain different testing methods to evaluate the skin adhesive performance mechanically on laboratory test setting and as well on human skin.

Skin Electrode Adhesive Performance Testing

4:10 PM

How to make sure skin electrodes stays attached on the skin and patient monitoring is reliable without disruption from the adhesive detaching from the skin. Skin adhesive testing have many consideration and one biggest is how to evaluate adhesion durability by using an alternative test surface than skin. Testing skin adhesive on human subject brings other clinical study requirements and ethical committee approval to the table. This presentation will explain different testing methods to evaluate the skin adhesive performance mechanically on laboratory test setting and as well on human skin.

Watch Demo Video
Botfactory
Botfactory
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Botfactory

Driving electronics in the age of AI

4:30 PM

joint
Carlos Ospina Tarazona

Carlos Ospina Tarazona

Chief Executive Officer

BotFactory will present an overview of the possibilities of generative AI, and how it is making strides in the world of electrical engineering. As part of the presentation, BotFactory will showcase some of the latest innovations on Supervised Additive Manufacturing to achieve fully automated production, testing and correction of PCB boards, to achieve the speed requirements of our AI enabled era.

Driving electronics in the age of AI

4:30 PM

BotFactory will present an overview of the possibilities of generative AI, and how it is making strides in the world of electrical engineering. As part of the presentation, BotFactory will showcase some of the latest innovations on Supervised Additive Manufacturing to achieve fully automated production, testing and correction of PCB boards, to achieve the speed requirements of our AI enabled era.

Watch Demo Video
Voltera
Voltera
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Voltera

Printing RFID Tags using Revolutionary Copper Ink on Paper

4:50 PM

joint
Evan Skelsey

Evan Skelsey

Embedded Systems Engineer

With nearly 28 billion RFID tags sold in 2021 and a yearly growth of 36%, the sheer volume of these tags will result in significant environmental challenges, due to the wasteful and resource intensive nature of current production methods. At Voltera, we set out to additively print an RFID tag using copper nano ink on paper, resulting in a compostable RFID tag that created no copper waste or toxic chemical byproducts from the production process.

Printing RFID Tags using Revolutionary Copper Ink on Paper

4:50 PM

With nearly 28 billion RFID tags sold in 2021 and a yearly growth of 36%, the sheer volume of these tags will result in significant environmental challenges, due to the wasteful and resource intensive nature of current production methods. At Voltera, we set out to additively print an RFID tag using copper nano ink on paper, resulting in a compostable RFID tag that created no copper waste or toxic chemical byproducts from the production process.

Watch Demo Video
Space Foundry
Space Foundry
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Space Foundry

Precision digital plasma deposition: deposit multilayer structure without curing

5:10 PM

joint
Ram Gandhiraman

Ram Gandhiraman

Founder, CEO

Precision digital plasma deposition: deposit multilayer structure without curing

5:10 PM

Watch Demo Video
Break
Break
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Break

Meet The Exhibitors & Networking Break

5:30 PM

joint
Short Demo

Meet The Exhibitors & Networking Break

5:30 PM

Watch Demo Video
Swansea University
Swansea University
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Swansea University

Enabling Sustainable Electronics Through Recyclable Silver Ink

6:15 PM

joint
James Claypole

James Claypole

Postdoctoral Researcher

Enabling Sustainable Electronics Through Recyclable Silver Ink

6:15 PM

Watch Demo Video
TRAQC
TRAQC
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TRAQC

In-Line, At-Speed Quality Assurance for Printed Electronics

6:35 PM

joint
Mariia Zhuldybina

Mariia Zhuldybina

Co-founder and CEO

Currently, print conductivity is typically measured at the end of production with physical probes, which is the most common quality control tool in printed electronics facilities today. These probes are broadly used to test both the printing process and the final devices but are slow and potentially damaging to the ink. Camera inspection systems are common in the graphic printing field, and work at the speed of the production line, but do not measure the functional properties of the ink. We will discuss the current needs and open problems in printed electronics quality control and present a solution in TRAQC. The TRAQC system is able to run at the speed of the production and is able to extract ink functionality (conductivity) and geometrical variation (spreading/stretching), the key parameters for electronics printing, in-line and at-speed.

In-Line, At-Speed Quality Assurance for Printed Electronics

6:35 PM

Currently, print conductivity is typically measured at the end of production with physical probes, which is the most common quality control tool in printed electronics facilities today. These probes are broadly used to test both the printing process and the final devices but are slow and potentially damaging to the ink. Camera inspection systems are common in the graphic printing field, and work at the speed of the production line, but do not measure the functional properties of the ink. We will discuss the current needs and open problems in printed electronics quality control and present a solution in TRAQC. The TRAQC system is able to run at the speed of the production and is able to extract ink functionality (conductivity) and geometrical variation (spreading/stretching), the key parameters for electronics printing, in-line and at-speed.

Watch Demo Video
Bayflex Solutions
Bayflex Solutions
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Bayflex Solutions

Accelerating FHE at scale with commercial grade reliability data frameworks

7:20 PM

joint
Eisuke Tsuyuzaki

Eisuke Tsuyuzaki

Accelerating FHE at scale with commercial grade reliability data frameworks

7:20 PM

Watch Demo Video
Fraunhofer IKTS
Fraunhofer IKTS
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Fraunhofer IKTS

Printed magnetic field sensors on flexible polymer foils

2:05 PM

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Clemens Voigt

Clemens Voigt

PhD student

Printed magnetic field sensors on flexible polymer foils

2:05 PM

Watch Demo Video
INKATRONIC
INKATRONIC
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INKATRONIC

Jetting Functional Fluids - Up Scaling from Laboratory to Industrial Production

2:25 PM

joint
Georg Boedler

Georg Boedler

Jetting Functional Fluids - Up Scaling from Laboratory to Industrial Production

2:25 PM

Watch Demo Video
Novalia Ltd
Novalia Ltd
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Novalia Ltd

One touch of nature makes the whole world kin. Design, Touch & User Experience

2:45 PM

joint
Chris Jones

Chris Jones

COO

One touch of nature makes the whole world kin. Design, Touch & User Experience

2:45 PM

Watch Demo Video
Ceradrop
Ceradrop
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Ceradrop

Advancing Printed Electronics: Exploring CeraPrinter's Multi-Module Approach to Hybrid Materials Deposition

3:05 PM

joint
Gizachew Y. Tesfay

Gizachew Y. Tesfay

Product Manager

In the ever-evolving landscape of technology, printed electronics has emerged as a transformative force with the potential to revolutionize various industries such as healthcare, energy, sensors, displays, and consumer electronics. This presentation delves into the multifaceted realm of printed electronics, focusing on the pivotal role of Hybrid Additive Materials Deposition in advancing this technology.
A substantial portion of the presentation is dedicated to the innovative multi-module approach employed by the CeraPrinter. By combining the strengths of different printing techniques, we can push the boundaries of what is possible in terms of material compatibility, resolution, and device performance. This approach harnesses the potential of various printing techniques, including various inkjet, Aerosol (pneumatic and ultrasonic), Microdispensing and in-line multi-curing systems, to precisely deposit functional materials on flexible and rigid substrates. The ability to seamlessly switch between different printing techniques within a single platform allows for simultaneous printing, ushering in unprecedented flexibility and efficiency, and a user-centric experience. Additionally, the modular design allows for easy integration of new printing modules, enabling continuous innovation and customization.
In conclusion, through real-world examples and case studies, the successful implementation of the CeraPrinter's multi-module approach in various industrial applications will be demonstrated. Join us in this presentation to learn more about this exciting technology and its implications for the future of printed electronics.

Advancing Printed Electronics: Exploring CeraPrinter's Multi-Module Approach to Hybrid Materials Deposition

3:05 PM

In the ever-evolving landscape of technology, printed electronics has emerged as a transformative force with the potential to revolutionize various industries such as healthcare, energy, sensors, displays, and consumer electronics. This presentation delves into the multifaceted realm of printed electronics, focusing on the pivotal role of Hybrid Additive Materials Deposition in advancing this technology.
A substantial portion of the presentation is dedicated to the innovative multi-module approach employed by the CeraPrinter. By combining the strengths of different printing techniques, we can push the boundaries of what is possible in terms of material compatibility, resolution, and device performance. This approach harnesses the potential of various printing techniques, including various inkjet, Aerosol (pneumatic and ultrasonic), Microdispensing and in-line multi-curing systems, to precisely deposit functional materials on flexible and rigid substrates. The ability to seamlessly switch between different printing techniques within a single platform allows for simultaneous printing, ushering in unprecedented flexibility and efficiency, and a user-centric experience. Additionally, the modular design allows for easy integration of new printing modules, enabling continuous innovation and customization.
In conclusion, through real-world examples and case studies, the successful implementation of the CeraPrinter's multi-module approach in various industrial applications will be demonstrated. Join us in this presentation to learn more about this exciting technology and its implications for the future of printed electronics.

Watch Demo Video
Break
Break
joint-presentations.png

Break

Meet The Exhibitors & Networking Break

3:25 PM

Short Demo
joint

Meet The Exhibitors & Networking Break

3:25 PM

Watch Demo Video
Fraunhofer IFAM
Fraunhofer IFAM
joint-presentations.png

Fraunhofer IFAM

Development of printed circuits with integrated sensors on flexible foils

4:10 PM

joint
Sophie Gruetzmacher

Sophie Gruetzmacher

Within the process of printing electronics, different printing methods offer a variety of applications. This presentation shows the development of a multi-layered printed circuit with the challenge of integrating rigid pressure sensors on a flexible foil. It focuses on the dispensing and screen printing of the circuit, two methods complementing to each other in the development and production process.

Development of printed circuits with integrated sensors on flexible foils

4:10 PM

Within the process of printing electronics, different printing methods offer a variety of applications. This presentation shows the development of a multi-layered printed circuit with the challenge of integrating rigid pressure sensors on a flexible foil. It focuses on the dispensing and screen printing of the circuit, two methods complementing to each other in the development and production process.

Watch Demo Video
PrintUp Institute
PrintUp Institute
joint-presentations.png

PrintUp Institute

Advancing Inkjet-Printed Electronics Through Chemistry for Biosensing Applications

4:30 PM

joint
Vincent Noel

Vincent Noel

Professor

Advancing Inkjet-Printed Electronics Through Chemistry for Biosensing Applications

4:30 PM

Watch Demo Video
Molex
Molex
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Molex

From Concept to Connection: Printed Electronics and Circuit Solutions

4:50 PM

joint
Robert Irwin

Robert Irwin

Manager, Advanced Development & Project Management

From Concept to Connection: Printed Electronics and Circuit Solutions

4:50 PM

Watch Demo Video
Epishine
Epishine
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Epishine

Scaling up R2R manufacture of OPVs for IoT applications

5:10 PM

joint
Jonas Bergqvist

Jonas Bergqvist

CTO and
Co-founder

Scaling up R2R manufacture of OPVs for IoT applications

5:10 PM

Watch Demo Video
Break
Break
joint-presentations.png

Break

Meet The Exhibitors & Networking Break

5:30 PM

Short Demo
joint

Meet The Exhibitors & Networking Break

5:30 PM

Watch Demo Video
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