Directory · DK
Nanotechnology Research in Denmark
A register of firms and the professionals working at them in the Nanotechnology Research sector based in Denmark. Browse the public index, then filter or export on Kipplo.
Companies
24 on file
Cemecon Scandinavia A S
Development and supply of advanced plasma-based surface coatings/treatments for protecting tools and components. CemeCon Scandinavia are specialists in advanced coatings of tools, components and wear parts. We offer solutions to tribological problems (tribology is the study of wear, friction and lubrication). Our solutions include hard, hard-wearing, corrosion-resistant and self-lubricating coatings.
11 to 50 staff
Kaleido Technology
Kaleido Technology innovates in optical design and manufacturing to enable next generation imaging experiences. With a focus on proprietary and ultra-precise solutions, greater optical design freedom can be achieved thus shortening lead-times, while enabling high volume mass production with greater consistency. Kaleido Technology was founded in 2001, and AAC Optics commenced investment and collaboration in 2010. Since engaging with AAC Technologies, the innovation has been brought to mass production and may now be found inside smartphone cameras while also exploring further markets. One of the key technologies is Wafer Level Glass (WLG) lenses that enable restoration of natural colors, improved image clarity and images that are consistent regardless of ambient temperature variations. Kaleido Technology today employs unique expertise within a range of optics fields and ultra-precision manufacturing, and offer exciting opportunities to make a real difference in next generation imaging.
51 to 200 staff
Aminic Aps
We are developing a handheld sensor that easily and with high precision determines the freshness and predict the expiration of meat and fish. It can, within seconds, give a number for the quality of the meat, forecast the correct expiration date and in turn reduce food waste. We are collaborating with the major Danish universities and RTOs in the development stage and the device is expected to reach the market soon. Have any more questions? Feel free to contact us at info@AmiNIC.dk or visit our webpage at
1 to 10 staff
Stensborg
Stensborg A/S has invented the Desktop R2P NanoImprinter, an enhanced version of the popular HoloPrint® uniA6 DT. The compact Roll-to-Plate (R2P) imprinter is a portable, easy-to-use machine ideal for prototyping, small-scale imprinting and fast process development for micro/nanostructures. Further, Stensborg is experienced with Roll-to-Roll production, our services include design, master, consumables development, and production. Our current customers are using our machines, products, and services in a wide variety of applications such as: • Hologram imprinting • Biotechnology applications • High-security structures • Flexible solar cell production • Optical waveguides • Holographic optical elements • Diffractive optical elements
11 to 50 staff
2d
2D is a startup with a vision to make graphene affordable and easily accessible to everyone. We are passionate about harnessing the power of nanotechnology to solve some of the world's biggest problems, and are committed to building a materials platform that will drive the next technological disruptions in fields such as carbon capture, water purification, renewable energy, health, and electronics. Follow our page to stay up-to-date on our latest developments and innovations, and learn more about how we are working to bring the benefits of graphene to people around the globe.
1 to 10 staff
Siphotonic Technologies
SiPhotonIC is a high-tech company that offers rapid and custom integration services for your Silicon Photonic Integrated circuits (PICs) for a wide range of applications. We outperform the delivery times of almost all photonic foundries by delivering within a 1-2.5 months window. We provide both 220nm and 250nm thick silicon-on-insulator (SOI) as our standard integration platforms for 1550nm. Several other materials are available to the users for fully-custom photonic stacks. We support the users in the entire development chain: transferring the idea properly into a PIC design, fabrication, dicing and back-end processes. Users can also opt to use only selected fabrication steps with us, e.g. only lithography or etching. Your reasons to prototype with SiPhotonIC: • Fast delivery time (typically 1~2.5 months) • Verified performance of our standard components • Great flexibility on the processes and materials • High-precision and high-resolution fabrication with EBL or DUV lithography • Our Silicon PICs have empowered prestigious publications in Science, Nature Physics, Nature Communications, Nano Letters, Nanoscale, Scientific Reports etc. Contact us for your project at info@siphotonic.com We are your partner in Rapid Photonic Prototyping.
1 to 10 staff
Spio Systems
SPIO Systems was founded in 2020, build upon a long history of successful companies in the optics industry in Denmark. We are enabling Integrated Optical engines utilizing Planar wave guiding wafers Stacked into modules with a cost-effective mass production by polymer imprint technology and wafer level assembly of optical modules. Our vision is to serve our clients by developing and manufacturing optical engines with a high degree of complexity, quality, and stability. We will become the technology leader in advanced optical engines based on Stacked Planar Integrated Optics (SPIO) and Nanoscale 3D structures.
1 to 10 staff
Nanophoton - Center For Nanophotonics
The research vision of NanoPhoton - Center for Nanophotonics – is to explore hitherto inaccessible regimes of extreme confinement of light in dielectric cavities and to apply the associated enhanced light-matter interaction to solve fundamental outstanding challenges in chip-scale information technology. A number of recent optical cavity designs have shown a path towards confining light at deep subwavelength dimensions in dielectrics. This phenomenon - which we refer to as Extreme Dielectric Confinement (EDC)- parts with the conventional wisdom in optics and nanotechnology that light cannot be localized to volumes smaller than roughly the cubic resonance wavelength. In addition to being of theoretical interest in its own right, EDC opens up new technological possibilities for novel optical nanostructures. It is the ambition of NanoPhoton to develop the science and technology for this new class of nanostructures by combining fundamental electromagnetic and quantum optical theory with state-of-the-art nanofabrication and advanced experimental characterization techniques. The research center NanoPhoton is funded by the Danish National Research Foundation (Danmarks Grundforskningsfond) with a DKK 62 million grant. NanoPhoton was established in April 2020 and will run for six years.
201 to 500 staff
Siox
High performance anti-stiction coating SiOx is a Danish technology company that enables fused quartz coating of metal based on it’s patented, unique NANOmel® Technology. The thin film provides a dense and flexible coating, which prevents fouling and scaling. The coating furthermore effectively protects the metal from corrosion while at the same time being a barrier that prevents unwanted interaction between the metal and the agent/environment. Further, the coating provides surface optimization like better polishing, hardness and wearability. Across every industry and market segment we work with optimization of industrial process applications where we strive to assist CTO’s, Process Engineers and Application Specialists looking for new solutions that can better ROI of the process plant/equipment – and COO, Production & Operations Managers who aims at increasing the operational productivity of the process line itself. The SiOx coating is a strong quartz coating with extraordinary mechanical strengths and durability while at the same time providing high heat conductivity and chemical inertness at a competitive price point. In short, we do quartz coatings to improve industrial processes. Get in touch to learn more. Mail: info@siox.dk
1 to 10 staff
Light Extraction
More lumens. Less heat. Light Extraction helps enhancing the light extraction efficiency in LEDs. Our scalable,and industrially applicable solution increases LED-efficiency by decreasing losses caused by internal reflection. The result is more lumens per watt and less heat - and consequently also reduced costs for handling the standard thermal problems in LEDs.
1 to 10 staff
Insight Chips
Insight Chips revolutionizes liquid cell TEM by making it fast, easy and reproducible with the first-ever monolithic the Nano Channel Chip. The Nano Channel Chip comes with a fixed, predefined liquid thickness of anywhere from 20 nm up to micrometers. The chip is monolithic and can therefore be easily prepared in minutes! Membranes are made down to 10 nm and Å resolution is reliably achieved. Membrane-bulging is virtually eliminated by being so narrow - usually the channels bulge less than 10 nm in the TEM. Read more on
1 to 10 staff
Polima - Center For Polariton-Driven Light-Matter Interactions
Enabled by concerted efforts from fundamental theory, nano- and quantum-optics experiments, low-dimensional material synthesis, advanced nanofabrication, and atomic-scale material characterization, Center for Polariton-driven Light–Matter Interactions—POLIMA—embraces a curiosity-driven exploration with new paradigms intersecting quantum optics and polaritonic matter. The center is lead by professor N. Asger Mortensen and with participation of several key investigators, including professors Joel D. Cox, Christian Wolff, and Christos Tserkezis. POLIMA is a DNRF Center of Excellence at the University of Southern Denmark (SDU), being funded by a grant from the Danish National Research Foundation (8 M€, Project No. DNRF165). Additional funding is provided by a number of personal grants, including the VILLUM Investigator program of Mortensen (5.3 M€, Grant No. 16498) from the VILLUM Foundation, and the Sapere Aude research leader grant of Cox (800 k€, Grant no. from the Independent Research Fund Denmark. POLIMA has access to ~500 m2 office and lab space, including state-of-the-art fascilities for near and far-field optical spectroscopy, scanning near-field optical microscopy (Neaspec SNOM), cathodoluminescense spectroscopy (Delmic CL), and low-temperature characterization of quantum emitters.
11 to 50 staff
Image Metrology A S
Image Metrology is a world-wide leading supplier of image processing software for "nano-microscopy". Our mission is to provide our customers with state-of-the-art image processing software for microscopy including: • Correction tools for creating the most accurate presentation of the "true" surface • Automated analysis techniques assuring high accuracy, quality and cost efficiency • Visualization and reporting tools enabling convincing and impressive communication of results This mission is fulfilled by development of our main product the Scanning Probe Image Processor, SPIP™. SPIP™ supports a wide variety of microscope types and their file formats including Scanning Probe Microscopes (SPM), interference microscopes, Scanning Electron Microscopes (SEM), confocal microscopes and profilers. Image Metrology is a highly innovative company constantly developing new solutions meeting the demands from our high-tech customers. Image Metrology is supplying its products directly to the end users or via our distribution network, and having an export rate of 98%.
11 to 50 staff
Crystal Fibre A S
Crystal Fibre A/S designs, manufactures and markets photonic crystal fibers (PCFs). Photonic crystal fibers, also known as microstructured or holey fibers, are a new range of optical fibers offering significant new possibilities and functionality within a broad range of applications including fiber lasers, telecommunications, entertainment and optical components in general. We launched our first product in the summer of and have since then expanded our product range considerably. We are today the biggest commercial supplier of photonic crystal fibers and offer a diversity of speciality fibers within nonlinear fibers, large mode area fibers as well as high NA and UV optimized fibers - all from stock. Crystal Fibre is committed to development of the fiber technology, working in close collaboration with our customers on supporting their applications.
11 to 50 staff
Beamfox Technologies Aps
Beamfox Proximity provides state-of-the-art proximity effect correction and data preparation for electron-beam lithography in a user-friendly software package. Our extremely fast and accurate core algorithm developed by researchers at the Niels Bohr Institute in Copenhagen enables researchers in nanotechnologies to accelerate their research. Beamfox Proximity is the most user-friendly proximity effect correction solution on the market and integrates seamlessly with electron-beam writers from the major electron-beam writer brands, with support for all electron-beam writers through layered GDS.
1 to 10 staff
Cupah
CUPAH is established in 2021 by Morten G. Stage as an innovation company developing a ground breaking carbon-nanotube (CNT) based composite material designed specifically for use in Hydrogen Storage tanks
1 to 10 staff
Nanonord A S
NanoNord A/S is a Danish, privately owned company with unique and strong bonds to the world of science and university research. We specialise in the development of real-time, online oil and water analysis systems for an array of industries. From Bluetooth™ to Tveskaeg NanoNord was founded by owner and CEO Ole Jensen. Ole previously founded the company Digianswer, who were the first in the world to introduce the revolutionary Bluetooth™ technology. NanoNord first launched the product Catguard, which was the world’s first device using the NMR technology to measure catfines in heavy fuel oil. The latest product to be introduced is Tveskaeg, which like its predecessor uses the NMR technology. And, like Bluetooth, is named after a famed Danish king. New standards in measuring At the heart of NanoNord is the revolutionary Nuclear Magnetic Resonance (NMR) technology, which radically changes the game for water and fuel analysis. The self-calibrating NMR sensors require minimum maintenance and offer reliable and precise measuring that is yet unparalleled.
11 to 50 staff
Synopsys Quantumatk
The QuantumATK team at Synopsys develops the QuantumATK simulation tool for fast and reliable atomic-scale modeling of nanostructure. QuantumATK is fully supported and delivered in an easy-to-use interface, tailored from state-of-the-art methods, and developed by experts to the specifications of our customers. Who we are The QuantumATK team are former employees of QuantumWise which was acquired by Synopsys Inc. in 2017. At present, the QuantumATK team are part of Synopsys TCAD and has more than 30 employees, working with developing the QuantumATK code and supporting the users. Most of the employees have a Ph.D. in physics or chemistry, and/or are seasoned programmers with long experience in numerical modeling and GUI development. Our aim and philosophy We position ourselves as a facilitator by interacting with both the research community to extract the latest state-of-the-art methods and techniques, and with researchers in companies and universities that seek to utilize these tools. We strive to deliver these advanced numerical tools in an easy-to-use package. Our primary aim is to make the latest developments within atomic-scale modeling available to enable technologists to solve real life problems within the materials and semiconductor industry. Unlike most other commercial companies offering software for atomic-scale modeling, we develop our own code from the bottom up, and we have the in-house expertise to develop novel functionality all the way down to the quantum-mechanical level. Our software is a constant work in progress, and our development is test-driven and guided by customer requests and requirements. We spend a lot of energy on ensuring the quality and reliability of the software. Can we help you solve a problem? If you have any questions related to our products or company, please get in touch with us (quantumatk@synopsys.com), as we would love to hear from you! Requests and feedback from our customers is what helps us evolve our products.
11 to 50 staff
Lumenar
At LumenAR, we are addressing a key challenge with modern computer monitors: Reflections from ambient light. We are developing an innovative antireflective display screen surface based on nanostructures. Unlike traditional matte anti-glare finishes, our solution eliminates reflections without compromising image quality – preserving sharpness, contrast, and clarity, even in bright environments. The result is a clearer, more comfortable and strain-free viewing experience.
1 to 10 staff
Qversion
QVersion is a spin-out from Aarhus University developing compact mid-infrared light sources on photonic chips. Building on mature laser platforms and advances in integrated photonics, we are creating tunable, narrow-linewidth lasers that make new wavelength ranges accessible. With support from the BioInnovation Institute and a team bringing more than a decade of research experience, we aim to enable applications from environmental monitoring and industrial sensing to healthcare and free-space communication.
1 to 10 staff
Interdisciplinary Nanoscience Center - Aarhus University
The interdisciplinary Nanoscience Center (iNANO) is a collaboration between research groups at the Institute of Physics and Astronomy, Department of Chemistry, Department of Molecular Biology, and Institute for Biological Sciences at University of Aarhus, several institutes at the Faculty of Health Sciences at the University of Aarhus, as well as groups from the Faculty of Science, Aalborg University.
51 to 200 staff
Polyceutix
Stemming from the cross-field of polymer science and structural biology, we utilize the unique pharmacokinetic and pharmacodynamic properties of native nanodiscs. Our delivery platform can deliver effective drugs to where they are needed, at the doses required, and facilitating the optimal environment for their effect.
1 to 10 staff
Copenhagen Microsystems
Copenhagen Microsystems are developing the world’s first commercial 3D ice lithography instrument, utilizing a modified SEM to crosslink organic chemical ices using a wide range of sustainable materials. This technology allows us to print intricate 3D structures without the need for support materials, achieving precision at the nano- to micrometer scale and significantly reducing costs.
1 to 10 staff
Nano-Science Center, Københavns Universitet
In September 2001 the Center was inaugurated as a joint venture between the Niels Bohr Institute and the Department of Chemistry at the University of Copenhagen. Today, the research member groups also come from several departments at the Faculty of Health and Medical Sciences. The Center was the first in Denmark to introduce a full bachelor and master's programme in Nanoscience. Today more than 250 students are studying nanoscience at Nano-Science Center. Many candidates choose to do a PhD, others do a career in industry. The Nano-Science Center houses research groups from the Department of Chemistry, the Niels Bohr Institute, the Department of Public Health, the Department of Food Sciences, and the GLOBE Institute.
51 to 200 staff
