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PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below. EXADDON 3D PRINTING VIDEOS Exaddon µAM Printing - Tensile Strength Test. In a standard tensile test, the expected behavior is as follows; the force rises rapidly at first, and the initial linear curve shows the elastic behavior of the material. At the point of maximum force, a neck (narrower section) begins to form; all subsequent plastic deformation is confined to this neck, until fracture finally occurs there. CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision. MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives.QUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING AT THE MICROSCALE Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our cutting-edge 3D printing CERES system is designed to additively micromanufacture metal objects or to repair minute metal structures atroom temperature.
PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below. EXADDON 3D PRINTING VIDEOS Exaddon µAM Printing - Tensile Strength Test. In a standard tensile test, the expected behavior is as follows; the force rises rapidly at first, and the initial linear curve shows the elastic behavior of the material. At the point of maximum force, a neck (narrower section) begins to form; all subsequent plastic deformation is confined to this neck, until fracture finally occurs there. CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision. MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives.QUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself PUBLICATIONS AND RESEARCH Publications and Resources with µAM. We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck. Please get in touch if you would like to collaborate.ODOO INFORMATION
Create and customize your Odoo apps. Website Live Chat. Chat with your website visitors. Email Marketing. Design, send and track emails. Calendar. Schedule employees meetings. Appointments. Schedule appointments with clients. ADDITIVE MICROMANUFACTURING BLOG Most industry overviews in the additive manufacturing media focus on companies able to 3D print large objects at large scale. Exaddon's one-of-a-kind technology puts it in a unique position in the micro AM space. We take an overview of the competitive landscape, focusing on materials, object size, and potential use cases. CAREER OPPORTUNITIES Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. METAL 3D PRINTING WITH SUBMICRON RESOLUTION EXADDON AG, SÄGEREISTRASSE 25, 8152 GLATTBRUGG, SWITZERLAND Subject to change without notice. PHONE +41 44 520 45 45, WWW.EXADDON.COM Copyright © 2019 Exaddon AG CERES DATASHEET DOWNLOAD CERES is a stand-alone printing system capable of producing complex and pure metal 3D objects at micrometer scale with a submicrometer resolution.It can also dispense liquids and nanoparticles in 2D, dependent on size and viscosity. CERES combines nanometer-accurate positioning, electrochemical deposition, and optical force feedback.This unique technology is operated by our CAPA software FUNDAMENTAL RESEARCH USE CASES Real World Example: University of Pisa. One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inbetween.
METAL 3D PRINTING AT THE MICROSCALE Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our cutting-edge 3D printing CERES system is designed to additively micromanufacture metal objects or to repair minute metal structures atroom temperature.
PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below. EXADDON 3D PRINTING VIDEOS Exaddon µAM Printing - Tensile Strength Test. In a standard tensile test, the expected behavior is as follows; the force rises rapidly at first, and the initial linear curve shows the elastic behavior of the material. At the point of maximum force, a neck (narrower section) begins to form; all subsequent plastic deformation is confined to this neck, until fracture finally occurs there.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inQUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING AT THE MICROSCALE Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our cutting-edge 3D printing CERES system is designed to additively micromanufacture metal objects or to repair minute metal structures atroom temperature.
PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below. EXADDON 3D PRINTING VIDEOS Exaddon µAM Printing - Tensile Strength Test. In a standard tensile test, the expected behavior is as follows; the force rises rapidly at first, and the initial linear curve shows the elastic behavior of the material. At the point of maximum force, a neck (narrower section) begins to form; all subsequent plastic deformation is confined to this neck, until fracture finally occurs there.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inQUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision.SURFACE MAPPING
CERES is a stand-alone printing system capable of producing complex and pure metal 3D objects at micrometer scale with a submicrometer resolution. It can also dispense liquids and nanoparticles in 2D, dependent on size and viscosity. This white paper details the new surface mapping functionality we have incorporated into our CERES µAMprint system.
ADDITIVE MICROMANUFACTURING BLOG Most industry overviews in the additive manufacturing media focus on companies able to 3D print large objects at large scale. Exaddon's one-of-a-kind technology puts it in a unique position in the micro AM space. We take an overview of the competitive landscape, focusing on materials, object size, and potential use cases. MICROCHIPS, MEMS & PACKAGING USING 3D PRINTING Microchips, MEMS, & Packaging with µAM. MEMS devices, microsensors, and lab-on-a-chip components can all be modified through the µAM capabilities of the CERES print system. As microchips are getting smaller and smaller, the limiting factor to reduce total chip design is nowadays often the packaging. There is a need to fundamentallyrethink
3D PRINTING OF MICROCOILS Manufacturing Microcoils with µAM. Manufacturing coils with a diameter less than 300 micrometers is a complex challenge which is hardly addressed by conventional methods. Thanks to our additive micromanufacturing technology, coils down to 10 micrometers in diameter are possible using standard printing nozzles. Using customnozzles, the
OPEN DEFECT REPAIR VIA ADDITIVE In most cases, underperforming or damaged dies are sorted and scrapped. With the unique µAM capacity of our CERES system, semiconductor open defect repair is possible, directly on a die - impossible for any other technology. High-precision resonant circuits can be leveled by adding connecting lines between different chipareas.
SEMICONDUCTOR MODIFICATION USING MICROSCALE 3D PRINTING Semiconductor Modification. Additive micromanufacturing provides new possibilities to support traditional lithographic processes for research and industrial applications. It has the capacity to modify lines and traces and chip surfaces very locally, and with pinpoint accuracy. Our CERES system allows the selection of exact positions,and to
COMPETITIVE LANDSCAPE Exaddon µAM Competitive Landscape. As can be seen, Exaddon occupies a unique position in the µAM space, and this means we can offer unique advantages to those using our technology. There is a complex interplay between the variables involved; print material, object size, and end use case all influence each other. This is discussed below. WEBINAR: DISCOVER 3D METAL PRINTING WITH EXADDON & QD USA Discover µAM of Metals. Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for fundamental research and industrial applications. Our CERES printer is a stand-alone 3D printing system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. METAL 3D PRINTING AT THE MICROSCALE Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our cutting-edge 3D printing CERES system is designed to additively micromanufacture metal objects or to repair minute metal structures atroom temperature.
PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below. EXADDON 3D PRINTING VIDEOS Exaddon µAM Printing - Tensile Strength Test. In a standard tensile test, the expected behavior is as follows; the force rises rapidly at first, and the initial linear curve shows the elastic behavior of the material. At the point of maximum force, a neck (narrower section) begins to form; all subsequent plastic deformation is confined to this neck, until fracture finally occurs there.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inQUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING AT THE MICROSCALE Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our cutting-edge 3D printing CERES system is designed to additively micromanufacture metal objects or to repair minute metal structures atroom temperature.
PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below. EXADDON 3D PRINTING VIDEOS Exaddon µAM Printing - Tensile Strength Test. In a standard tensile test, the expected behavior is as follows; the force rises rapidly at first, and the initial linear curve shows the elastic behavior of the material. At the point of maximum force, a neck (narrower section) begins to form; all subsequent plastic deformation is confined to this neck, until fracture finally occurs there.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inQUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm. CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision.SURFACE MAPPING
CERES is a stand-alone printing system capable of producing complex and pure metal 3D objects at micrometer scale with a submicrometer resolution. It can also dispense liquids and nanoparticles in 2D, dependent on size and viscosity. This white paper details the new surface mapping functionality we have incorporated into our CERES µAMprint system.
ADDITIVE MICROMANUFACTURING BLOG Most industry overviews in the additive manufacturing media focus on companies able to 3D print large objects at large scale. Exaddon's one-of-a-kind technology puts it in a unique position in the micro AM space. We take an overview of the competitive landscape, focusing on materials, object size, and potential use cases. MICROCHIPS, MEMS & PACKAGING USING 3D PRINTING Microchips, MEMS, & Packaging with µAM. MEMS devices, microsensors, and lab-on-a-chip components can all be modified through the µAM capabilities of the CERES print system. As microchips are getting smaller and smaller, the limiting factor to reduce total chip design is nowadays often the packaging. There is a need to fundamentallyrethink
3D PRINTING OF MICROCOILS Manufacturing Microcoils with µAM. Manufacturing coils with a diameter less than 300 micrometers is a complex challenge which is hardly addressed by conventional methods. Thanks to our additive micromanufacturing technology, coils down to 10 micrometers in diameter are possible using standard printing nozzles. Using customnozzles, the
OPEN DEFECT REPAIR VIA ADDITIVE In most cases, underperforming or damaged dies are sorted and scrapped. With the unique µAM capacity of our CERES system, semiconductor open defect repair is possible, directly on a die - impossible for any other technology. High-precision resonant circuits can be leveled by adding connecting lines between different chipareas.
HIGH-FREQUENCY TECHNOLOGIES USING 3D PRINTING The need for unlimited communication and access to information has led to an ever-increasing demand for bandwidth, and the need to go beyond 5G. High bandwidth means high frequencies and short wavelengths. Short wavelengths mean tiny antennas and structures. COMPETITIVE LANDSCAPE Exaddon µAM Competitive Landscape. As can be seen, Exaddon occupies a unique position in the µAM space, and this means we can offer unique advantages to those using our technology. There is a complex interplay between the variables involved; print material, object size, and end use case all influence each other. This is discussed below. WEBINAR: DISCOVER 3D METAL PRINTING WITH EXADDON & QD USA Discover µAM of Metals. Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for fundamental research and industrial applications. Our CERES printer is a stand-alone 3D printing system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. METAL 3D PRINTING AT THE MICROSCALE Microcoils. “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micron resolution. The samples provided by the team, so far, are a work of PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale. EXADDON 3D PRINTING VIDEOS “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision. PUBLICATIONS AND RESEARCH Publications and Resources with µAM. We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck. Please get in touch if you would like to collaborate. MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything in MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives.QUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING AT THE MICROSCALE Microcoils. “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micron resolution. The samples provided by the team, so far, are a work of PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale. EXADDON 3D PRINTING VIDEOS “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision. PUBLICATIONS AND RESEARCH Publications and Resources with µAM. We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck. Please get in touch if you would like to collaborate. MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything in MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives.QUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself 3D PRINTING OF MICROCOILS Manufacturing Microcoils with µAM. Manufacturing coils with a diameter less than 300 micrometers is a complex challenge which is hardly addressed by conventional methods. Thanks to our additive micromanufacturing technology, coils down to 10 micrometers in diameter are possible using standard printing nozzles. Using customnozzles, the
SURFACE MAPPING
CERES is a stand-alone printing system capable of producing complex and pure metal 3D objects at micrometer scale with a submicrometer resolution. It can also dispense liquids and nanoparticles in 2D, dependent on size and viscosity. This white paper details the new surface mapping functionality we have incorporated into our CERES µAMprint system.
CAREER OPPORTUNITIES Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. MICROCHIPS, MEMS & PACKAGING USING 3D PRINTING Microchips, MEMS, & Packaging with µAM. MEMS devices, microsensors, and lab-on-a-chip components can all be modified through the µAM capabilities of the CERES print system. As microchips are getting smaller and smaller, the limiting factor to reduce total chip design is nowadays often the packaging. There is a need to fundamentallyrethink
HIGH-FREQUENCY TECHNOLOGIES USING 3D PRINTING The need for unlimited communication and access to information has led to an ever-increasing demand for bandwidth, and the need to go beyond 5G. High bandwidth means high frequencies and short wavelengths. Short wavelengths mean tiny antennas and structures. METAL 3D PRINTING WITH SUBMICRON RESOLUTION EXADDON AG, SÄGEREISTRASSE 25, 8152 GLATTBRUGG, SWITZERLAND Subject to change without notice. PHONE +41 44 520 45 45, WWW.EXADDON.COM Copyright © 2019 Exaddon AG MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives. METAL 3D PRINTING AT THE MICROSCALE Microcoils. “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micron resolution. The samples provided by the team, so far, are a work of PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale. EXADDON 3D PRINTING VIDEOS “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision. PUBLICATIONS AND RESEARCH Publications and Resources with µAM. We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck. Please get in touch if you would like to collaborate. MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything in MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives.QUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING AT THE MICROSCALE Microcoils. “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micron resolution. The samples provided by the team, so far, are a work of PRODUCT - CERES PRINT SYSTEM CERES Print System. CERES is a stand-alone microscale 3D print system that prints complex and pure metal objects at the micrometer scale, and with submicrometer resolution. Additionally, it writes patterns with liquids and nanoparticles that can be made of different materials. CERES combines nanometer-accurate positioning, airpressure-driven
ABOUT US - MEET THE TEAM EXADDON. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES printing system is designed for researchers and scientists to conduct additive micro-manufacturing (µAM ) of metals on the micrometer scale. EXADDON 3D PRINTING VIDEOS “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
CONTACT US | EXADDON AG Contact Us. Through unique additive micromanufacturing technology, Exaddon offers cutting edge solutions to challenges of industry and research in vast range of fields. Speak with us today to discover how our globally unique technology and expertise can realize and extend your manufacturing vision. PUBLICATIONS AND RESEARCH Publications and Resources with µAM. We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck. Please get in touch if you would like to collaborate. MICROMANUFACTURING PRINT PROCESS A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. The liquid flow is very small - as low as femtoliters per second. At the end of the microchannel, the ion containing liquid is released onto the print surface. The dissolved metal ions are then electrodeposited into solidmetal atoms.
FUNDAMENTAL RESEARCH USE CASES One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything in MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives.QUICK START
The goal of this manual is to give you the necessary information to operate the CERES additive micro-manufacturing (µAM) system. In this quick start guide, we give you a rough overview of the necessary steps to start printing your structures and where to find additional information. Before starting a new experiment, make sure that therequired
METAL 3D PRINTING USE CASES The stand-alone system CERES offers these communities 3D printing capabilities for very complex metal structures. CERES also dispenses liquids in 2D, both with and without nanoparticles. Learn more about the possible applications in the Use Cases section below.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique CERES system prints tiny objects with nanometer resolution, in sizes from 1 µm to up to 1000 µm.MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itself 3D PRINTING OF MICROCOILS Manufacturing Microcoils with µAM. Manufacturing coils with a diameter less than 300 micrometers is a complex challenge which is hardly addressed by conventional methods. Thanks to our additive micromanufacturing technology, coils down to 10 micrometers in diameter are possible using standard printing nozzles. Using customnozzles, the
SURFACE MAPPING
CERES is a stand-alone printing system capable of producing complex and pure metal 3D objects at micrometer scale with a submicrometer resolution. It can also dispense liquids and nanoparticles in 2D, dependent on size and viscosity. This white paper details the new surface mapping functionality we have incorporated into our CERES µAMprint system.
CAREER OPPORTUNITIES Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. HIGH-FREQUENCY TECHNOLOGIES USING 3D PRINTING The need for unlimited communication and access to information has led to an ever-increasing demand for bandwidth, and the need to go beyond 5G. High bandwidth means high frequencies and short wavelengths. Short wavelengths mean tiny antennas and structures. MICROCHIPS, MEMS & PACKAGING USING 3D PRINTING Microchips, MEMS, & Packaging with µAM. MEMS devices, microsensors, and lab-on-a-chip components can all be modified through the µAM capabilities of the CERES print system. As microchips are getting smaller and smaller, the limiting factor to reduce total chip design is nowadays often the packaging. There is a need to fundamentallyrethink
SEMICONDUCTOR MODIFICATION USING MICROSCALE 3D PRINTING Semiconductor Modification. Additive micromanufacturing provides new possibilities to support traditional lithographic processes for research and industrial applications. It has the capacity to modify lines and traces and chip surfaces very locally, and with pinpoint accuracy. Our CERES system allows the selection of exact positions,and to
MICHELANGELO’S DAVID MADE IN MICROSCALE This slicing method enables an entirely new way to print designs with the CERES additive micromanufacturing system.”. The “David” is the largest object created by the new additive manufacturing method from Exaddon AG so far. Tiny David. With the CERES in microscale and with copper additively manufactured David from different perspectives. METAL 3D PRINTING AT THE MICROSCALE “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
PRODUCT - CERES PRINT SYSTEM “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
ABOUT US - MEET THE TEAM Dr. Wabe Koelmans CTO. Wabe’s passions to understand how things work and connect to people have made him a technology team builder. As CTOhe sets the
EXADDON 3D PRINTING VIDEOS “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
PUBLICATIONS AND RESEARCH We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck.Please get CONTACT US | EXADDON AG Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. MICROMANUFACTURING PRINT PROCESS ELECTROCHEMICAL DEPOSITION µAM. The additive micromanufacturing technology (µAM) is based on electrochemical deposition. A small printing nozzle, called an iontip, is immersed in a supporting electrolyte bath.A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. FUNDAMENTAL RESEARCH USE CASES Real World Example: University of Pisa. One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inbetween.
QUICK START
Then insert the desired plates and configure the system by selecting the appropriate plate type. Press To Left Port or To Right Port to get access to the plate holder from either sides. During this step, the Y axis is disabled and can be freely moved by hand without disengaging. MICHELANGELO’S DAVID MADE IN MICROSCALE Probably one of the most famous art sculptures in the world recreated in an entirely new perspective: Thanks to significant advances in the development of the CERES additive micro-manufacturing system, Michelangelo’s David exists now in the size of a little ant. METAL 3D PRINTING AT THE MICROSCALE “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
PRODUCT - CERES PRINT SYSTEM “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
ABOUT US - MEET THE TEAM Dr. Wabe Koelmans CTO. Wabe’s passions to understand how things work and connect to people have made him a technology team builder. As CTOhe sets the
EXADDON 3D PRINTING VIDEOS “Exaddon’s micro-metal additive manufacturing is the first and only technology currently available in the market, with the ability to 3D print complex mesoscale samples such as microlattices, microsprings, micropillars and microtensile samples with sub-micronresolution.
PUBLICATIONS AND RESEARCH We are actively engaged in research projects with some of the top academic institutions around the globe, including EMPA, ETH Zurich, Ferdinand Braun, and Max Planck.Please get CONTACT US | EXADDON AG Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. MICROMANUFACTURING PRINT PROCESS ELECTROCHEMICAL DEPOSITION µAM. The additive micromanufacturing technology (µAM) is based on electrochemical deposition. A small printing nozzle, called an iontip, is immersed in a supporting electrolyte bath.A precisely regulated air-pressure pushes a liquid containing metal ions through a microchannel inside the iontip. FUNDAMENTAL RESEARCH USE CASES Real World Example: University of Pisa. One application of CERES in fundamental research is to print arrays of micropillars for cell transfection studies, as is planned by the University of Pisa. Read the full press release, and learn how CERES will be used for projects from life sciences to nuclear physics, photonics, and everything inbetween.
QUICK START
Then insert the desired plates and configure the system by selecting the appropriate plate type. Press To Left Port or To Right Port to get access to the plate holder from either sides. During this step, the Y axis is disabled and can be freely moved by hand without disengaging. MICHELANGELO’S DAVID MADE IN MICROSCALE Probably one of the most famous art sculptures in the world recreated in an entirely new perspective: Thanks to significant advances in the development of the CERES additive micro-manufacturing system, Michelangelo’s David exists now in the size of a little ant.LOGIN | EXADDON AG
Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. METAL 3D PRINTING USE CASES Science, R&D, and Additive Micromanufacturing (µAM). Exaddon operates at the forefront of microtechnology and interacts heavily with academic and research communities. The stand-alone system CERES offers these communities 3D printing capabilities for very complex metalstructures.
MATERIAL PROPERTIES
Testing Tensile Strength of Microscale AM Objects. Tensile strength is the strength of a material under tension, whilst the yield strength denotes the point at which elastic behavior ends and plastic behavior begins; this provides further insight into how a material will act under tension.. Scientists at EMPA conducted tensile strength and yield tests using the ASA system from Alemnis, itselfSURFACE MAPPING
CERES is a stand-alone printing system capable of producing complex and pure metal 3D objects at micrometer scale with a submicrometer resolution. It can also dispense liquids and nanoparticles in 2D, dependent on size and viscosity. This white paper details the new surface mapping functionality we have incorporated into our CERES µAMprint system.
CAREER OPPORTUNITIES Exaddon AG - About us. We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. 3D PRINTING OF MICROCOILS Manufacturing coils with a diameter less than 300 micrometers is a complex challenge which is hardly addressed by conventional methods. Thanks to our additive micromanufacturing technology, coils down to 10 micrometers in diameter are possible using standard printing nozzles. HIGH-FREQUENCY TECHNOLOGIES USING 3D PRINTING The need for unlimited communication and access to information has led to an ever-increasing demand for bandwidth, and the need to go beyond 5G. High bandwidth means high frequencies and short wavelengths. Short wavelengths mean tiny antennas and structures. MICROCHIPS, MEMS & PACKAGING USING 3D PRINTING MEMS devices, microsensors, and lab-on-a-chip components can all be modified through the µAM capabilities of the CERES print system. As microchips are getting smaller and smaller, the limiting factor to reduce total chip design is nowadays often the packaging. SEMICONDUCTOR MODIFICATION USING MICROSCALE 3D PRINTING Additive micromanufacturing provides new possibilities to support traditional lithographic processes for research and industrial applications. It has the capacity to modify lines and traces and chip surfaces very locally, and with pinpoint accuracy. MICHELANGELO’S DAVID MADE IN MICROSCALE Probably one of the most famous art sculptures in the world recreated in an entirely new perspective: Thanks to significant advances in the development of the CERES additive micro-manufacturing system, Michelangelo’s David exists now in the size of a little ant.* Product
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CHANGING THE FUTURE
OF ADDITIVE MICROMANUFACTURING 3D METAL PRINTING AT MICROMETER SCALE – A SPIN OFF FROM CYTOSURGEAG
EXPLORE EXADDON
Exaddon provides high-precision and innovative additive micromanufacturing (µAM) solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our cutting-edge 3D printing CERES system is designed to additively micromanufacture metal objects or to repair minute metal structures atroom temperature.
The CERES system opens the door to an extensive range of new manufacturing solutions. Development of innovative applications with minute metal structures starting at a few micrometers in size up to several hundreds of micrometers is now possible. Enter a new dimension with CERES, the µAM printing system for research and industry. ULTRA-PRECISE PRINTING SYSTEM dIScover THE CERES SYSTEM ELECTROCHEMICAL DEPOSITION discover our printing process BUSINESS AND RESEARCH DiScover THE APPLICATIONS*
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> “Exaddon’s micro-metal additive manufacturing is the first and > only technology currently available in the market, with the ability > to 3D print complex mesoscale samples such as microlattices, > microsprings, micropillars and microtensile samples with sub-micron > resolution. The samples provided by the team, so far, are a work of > art and simply amazing.” > — DR. RAJAPRAKASH RAMACHANDRAMOORTHY > Laboratory of Mechanics of Materials and Nanostructures Empa - Swiss > Federal Laboratories for Materials Science and Technology> __
> “The first time our team saw the objects Exaddon printed for us, > we got really excited and amazed about this fascinating new leading > edge technology.” > — DR. GIACOMO ULISSE > Researcher at Goethe University Frankfurt> __
> “What I saw make me believe that this manufacturing possibility > will be a game changer for novel applications within the high > frequency technology we are working on. ” > — PROFESSOR, DR. ING. HABIL. VIKTOR KROZER > Goethe-Leibniz Terahertz Center, Goethe University of Frankfurt am > Main Ferdinand-Braun-Institut Berlin, Leibniz Institut für > Höchstfrequenztechnik> __
> “The Exaddon's metal additive micro manufacturing technology is a > second to none technology and we are impressed with the print > results we got. It make us believe, this technology will lead us to > novel applications and with the team of Exaddon, we will achieve> it.”
> — SÉBASTIEN ENGELEN > Project engineer, AXON' CABLE SASPrevious
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HIGH-FREQUENCY TECHNOLOGIES LEAD THE WORLD OF MICROPRINTING APPLICATIONS WITH CERES The only technology of its kind in the world, CERES has limitless possibilities within both industry and research. Your application is our motivation; let us know your questions or challenges, and our technicians will work to help you discover the limitless possibilities of additive micromanufacturing with CERES.Company
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We provide high-precision and innovative additive micromanufacturing solutions for technology visionaries and companies aiming to be at the forefront of innovation. Our unique “CERES” system prints with nanometer resolution tiny objects in sizes from 1 µm to up to 1000 µm. Copyright © Exaddon AG Powered by Odoo , an awesome Open Source CRM . We use cookies to improve your experience on our website. By browsing this website, you agree to our use of cookies, as set out in ourPrivacy Policy .
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