Developer of an optical testing product intended for postoperative monitoring and treatment. The company's product makes the postoperative management of dislocated intraocular lenses intuitive and straightforward, enabling patients to reduce post-operative refractive issues after cataract surgery.
Onward is developing an Implantable Neuro-stimulation System (INS) with real-time motion feedback and uses training tools to rehabilitate patients suffering from neurological disorders such as spinal cord injury (SCI).
Developer of thin optical film technology designed to improve the user experience and safety while viewing digital displays. The company is engaged in developing technology and products that improve the user experience and safety while viewing digital displays, such as mobile phones, tablets, and control monitors, providing users with better experience and safety.
Dracula Technologies SAS specializes in the design and manufacture of organic photovoltaic cells aimed at providing energy autonomy for connected devices. Founded in 2011 and based in Valence, France, the company develops products that enable small electronic devices, such as phones, GPS units, and lamps, to self-recharge using solar energy. Their flagship product, Light As Your Energetic Response (LAYER), is designed to capture various forms of light, both indoors and outdoors, and convert it into usable energy through advanced digital printing techniques. The team consists of approximately 20 members, including a scientific committee and an administrative committee, all dedicated to fostering innovation and collaboration within the company. Dracula Technologies operates as a subsidiary of Ardeje.
PeekMed is a 3D pre-operative planning system for orthopedic surgery that aims to help the surgeon better treat the patient while reducing costs. With PeekMed the surgeon can plan: - Total Joint Replacements; - Osteotomies; - Fracture reductions; - Virtually any orthopedic procedure. The output of PeekMed system can later be used as an input for: - Navigation systems; - 3D printers; - Robotics; - Mobile devices. PeekMed was founded by Jaime Campos, Sara Silva, and João Pedro Ribeiro in 2015 and is located in Braga, Portugal.
Headmade Materials GmbH, founded in 2019 and based in Würzburg, Germany, specializes in developing materials and processes for metal 3D printing, specifically through its Cold Metal Fusion technology. The company focuses on the production of serial metal parts, offering services that include part design, small-scale series production, and process consulting. By providing standard and customized feedstocks, Headmade Materials aims to enhance component output and streamline post-processing. Their expertise supports additive-compatible design and reliable production processes, enabling clients to manufacture advanced printed metal parts in a cost-effective manner.
Headmade Materials GmbH, founded in 2019 and based in Würzburg, Germany, specializes in developing materials and processes for metal 3D printing, specifically through its Cold Metal Fusion technology. The company focuses on the production of serial metal parts, offering services that include part design, small-scale series production, and process consulting. By providing standard and customized feedstocks, Headmade Materials aims to enhance component output and streamline post-processing. Their expertise supports additive-compatible design and reliable production processes, enabling clients to manufacture advanced printed metal parts in a cost-effective manner.
DyeMansion GmbH, founded in 2013 and based in Munich, Germany, specializes in the post-processing and coloring of 3D-printed laser sintered parts. The company provides high-volume finishing systems that streamline the transition from raw 3D-printed components to high-value consumer and industrial products. With a focus on precision coloring and finishing, DyeMansion serves over four hundred clients, including prominent global manufacturers across various sectors such as eyewear, automotive, retail, medical, and sports equipment. The company has established itself as a leader in additive manufacturing finishing systems for polymer parts, collaborating with major industrial 3D printing systems like EOS, HP, 3D Systems, and Prodways. DyeMansion's technology enables the production of items ranging from luxury sunglasses to essential automotive components, ensuring high-quality results tailored to customer specifications.
FibriTech specializes in the development of advanced technologies for the production of 3D fiber network materials, which have a variety of applications across multiple industries. The company provides innovative solutions in areas such as agritech, packaging, filtration, insulation, and biocomposites. FibriTech's products offer a sustainable alternative to conventional materials like Styrofoam and various foamed plastics, delivering lightweight yet strong biomaterials that are both functional and environmentally friendly. By focusing on the creation of spatially shapable materials, FibriTech aims to address the challenges posed by traditional materials while promoting sustainability in manufacturing processes.
Dotlumen is a research startup founded in 2020 and based in Cluj, Romania, focused on enhancing the quality of life for visually impaired individuals. The company develops innovative glasses equipped with a sensory and feedback system that aids users in navigating their environments. By leveraging advancements in artificial intelligence, robotics, and neuroscience, Dotlumen aims to empower blind individuals to better understand and interact with the world around them.
A word About US.A bunch of visionary people. Scientific scouts. Daring entrepreneurs. Just a crew of dreamers, all with a common goal. Improving Human Experience.They give a Key to interact with the world through your imagination & our technology. Is a new way to play with the environment. Mountains. Trees. Clouds. Flowers. Rivers. Rocks. Animals. Waves. People. Friends. And a new way to show your feelings. flying, exploring, Surfing & Underwater.
A word About US.A bunch of visionary people. Scientific scouts. Daring entrepreneurs. Just a crew of dreamers, all with a common goal. Improving Human Experience.They give a Key to interact with the world through your imagination & our technology. Is a new way to play with the environment. Mountains. Trees. Clouds. Flowers. Rivers. Rocks. Animals. Waves. People. Friends. And a new way to show your feelings. flying, exploring, Surfing & Underwater.
Simplicity Works develops its patented technology 3D Bonding - the simplest method for joining pieces.
Dotlumen is a research startup founded in 2020 and based in Cluj, Romania, focused on enhancing the quality of life for visually impaired individuals. The company develops innovative glasses equipped with a sensory and feedback system that aids users in navigating their environments. By leveraging advancements in artificial intelligence, robotics, and neuroscience, Dotlumen aims to empower blind individuals to better understand and interact with the world around them.
Delmic B.V., based in Delft, the Netherlands, specializes in manufacturing correlative light and electron microscopy solutions aimed at advancing life and materials science research. The company’s primary products include SECOM, which integrates fluorescence and electron microscopy; SPARC, a high-performance cathodoluminescence detection system; and Delphi, a combined fluorescence and scanning electron microscope. Delmic also develops software designed to facilitate navigation within its integrated microscopy systems. Founded in 2010, the company is committed to providing effective and user-friendly tools that enhance research capabilities, enabling researchers and organizations to gain insights more efficiently.
Gleechi AB, founded in 2014 and based in Stockholm, Sweden, specializes in developing software solutions that facilitate natural hand interaction in virtual environments and robotics. The company's innovative technology allows for real-time hand motion interaction, enhancing experiences in virtual reality and gaming. By leveraging advanced computer vision and machine learning algorithms, Gleechi enables realistic hand movements, making it easier for users to engage with virtual training scenarios and artificial hands. The company has received several accolades, including recognition as Super Startup of the Year and Startup of the Year by various organizations, highlighting its impact and leadership in the field of interactive software solutions.
Developer of parallel dispensing technology designed to reduce material consumption in the PV (Photovoltaics ) industry. The company's technology is used to apply front metal contacts onto solar cells and can be integrated into conventional production lines for silicon solar cells, replacing the screen printing process normally used for the front-side metal contacts, enabling clients to save resources, increasing the electricity yield and increasing throughput.
NIL Technology ApS is a nanotechnology company based in Kongens Lyngby, Denmark, with a branch in Gothenburg, Sweden. Established in 2006, the company specializes in the optical design, prototyping, and mass production of optical components. NIL Technology offers nanostructured masters for various replication technologies, such as nanoimprint, UV-replication, hot embossing, roll printing, and injection molding. Its product range includes diffractive optical elements, microlens arrays, beam splitters, optical diffusers, and waveguides for augmented and mixed reality applications. The company's solutions cater to diverse sectors, including biotechnology, renewable energy, consumer product packaging, and advanced imaging technologies. By focusing on optical applications for sensors, 3D displays, and smartphones, NIL Technology aims to enable innovative optical solutions for a variety of high-tech industries.
ATLANT 3D Nanosystems is a global pioneer combining unique advanced technologies to enable atomic layer 3D printing. The company was founded in 2018 by Dr. Maksym Plakhotnyuk, Ivan Kundrata, and Prof. Dr. Julien Bachmann with a vision of delivering the first-ever atomic layer 3D printing technology to reshape the future atom by atom. Our state-of-the-art atomic layer 3D printing technology is a true European creation, supported by three major European universities: Technical University of Denmark, Institute of Electrical Engineering Slovak Academy of Sciences, and Friedrich Alexander University Erlangen-Nuremberg.
Lightspace Technologies SIA specializes in the development of advanced optical solutions and technologies for augmented reality (AR) and virtual reality (VR) displays. Incorporated in 2014 and based in Mārupe, Latvia, the company focuses on creating multifocal, accommodating AR headsets and future glasses-free 3D image displays. Their portfolio includes innovative products such as a multilayer liquid crystal switching diffuser, VR/AR near-eye display architecture, and a unity 3D rendering software plugin designed for volumetric displays. Lightspace's volumetric 3D monitor is particularly significant in sectors like medicine and security, providing real-time 3D displays with optically deep images. This technology facilitates applications such as three-dimensional microscopy, image-guided surgery, and diagnostics, enhancing both image quality and eye comfort for professionals across various fields. Recognized as a leading contributor to volumetric 3D display technologies, Lightspace continues to advance optical reality solutions by reducing the optical hardware requirements for light field display technology significantly.
Gleechi AB, founded in 2014 and based in Stockholm, Sweden, specializes in developing software solutions that facilitate natural hand interaction in virtual environments and robotics. The company's innovative technology allows for real-time hand motion interaction, enhancing experiences in virtual reality and gaming. By leveraging advanced computer vision and machine learning algorithms, Gleechi enables realistic hand movements, making it easier for users to engage with virtual training scenarios and artificial hands. The company has received several accolades, including recognition as Super Startup of the Year and Startup of the Year by various organizations, highlighting its impact and leadership in the field of interactive software solutions.
Planblue GmbH, founded in 2017 and based in Bremen, Germany, specializes in advanced seafloor monitoring technology. The company has developed the DiveRay, an intelligent underwater camera that employs hyperspectral imaging and machine-learning algorithms to automatically scan and analyze seafloor areas, lake bottoms, and river beds. This technology significantly enhances the efficiency of both underwater monitoring and data analysis on land, making it accessible to any experienced diver. The data collected by the DiveRay is objective and can be easily compared to future studies, facilitating environmental impact analysis and scientific research. Additionally, Planblue's solutions support the inspection of underwater constructions at various stages and assist in repair activities, thereby promoting conservation and sustainable industrial practices in marine environments.
CREAL3D SA, founded in 2017 and based in Ecublens, Switzerland, specializes in developing advanced light field technology for virtual reality and mixed reality headsets. This innovative technology enhances immersion by projecting images with genuine optical depth, addressing common issues such as eye strain, nausea, and discomfort associated with existing headsets. Additionally, CREAL's near-eye light-field display is designed to be compact and easy to manufacture, positioning the company as a key player in improving user experience in immersive technologies.
FEops is a recognized pioneer in the field of physics-based simulations for minimally invasive cardiovascular devices and procedures. They apply this technology from bench to bed, by offering advice to medical device companies as well as to medical specialists and physicians.
Their computer simulations have proven to provide medical device developers and manufacturers with unique insights, thereby speeding up R&D processes and supporting device safety. Physicians, for their part, benefit from new patient-specific insights that help them work more efficiently while, most importantly, improving patient safety.
FEops is a recognized pioneer in the field of physics-based simulations for minimally invasive cardiovascular devices and procedures. They apply this technology from bench to bed, by offering advice to medical device companies as well as to medical specialists and physicians.
Their computer simulations have proven to provide medical device developers and manufacturers with unique insights, thereby speeding up R&D processes and supporting device safety. Physicians, for their part, benefit from new patient-specific insights that help them work more efficiently while, most importantly, improving patient safety.
TiHive specializes in developing advanced imaging and sensing systems that utilize miniature Terahertz technology for the inspection of textiles, plastics, and composites. The company's innovative solutions are designed to detect product defects and contaminants during in-line production processes, enabling manufacturers to monitor quality and ensure compliance. TiHive's systems are adaptable, allowing them to be integrated into various stages of production and across different machine widths. This versatility not only helps industries optimize their use of raw materials but also contributes to significant cost savings by minimizing waste and enhancing overall production efficiency.
LaDiMo Oy, founded in 2015 and based in Espoo, Finland, specializes in developing the Ladimo Smarter Vision technology, a real-time 3D point cloud acquisition solution. The company builds upon innovative technology initially created at Aalto University in 2012 by Jorma Palmén. By integrating photogrammetry, laser technology, and mathematical modeling, Ladimo offers a novel approach to generating high-precision point cloud data. This technology is particularly applicable in machine vision fields, including collaborative robots, industrial automation, automated guided vehicles, and various virtual, augmented, and mixed reality applications.