Cutting-edge science inspires ground-breaking work
The DaLI system has set up a platform that opens the door to further development and new devices in the field of maskless lithography as well as other micromachining fields. It is developed in accordance with European regulations and is consequently CE marked.
Cutting-edge science inspires ground-breaking work
The DaLI system has set up a platform that opens the door to further development and new devices in the field of maskless lithography as well as other micromachining fields. It is developed in accordance with European regulations and is consequently CE marked.
In-house and no-cost development
In the field of R&D in particular, rapid adaptation of the design of structures is crucial for sustainable and effective progress. Many iterations and improvements are often needed. Maskless optical lithography proves useful since it offers rapid product development in-house at no cost and waiting for new and expensive versions of photomasks.
An intelligent, light and user-friendly solution
miDALIX has managed to package technology in a small and light desktop format that competes with much larger, heavier, and more expensive systems.
Flexibility
The intelligent solution compensates for what the competition solves with expensive and heavy mechanical assemblies by taking advantage of the extraordinary flexibility and precision of the AOD (acousto-optic deflector) subsystem combined with smart sensorics and associated algorithms.
Flexibility
The intelligent solution compensates for what the competition solves with expensive and heavy mechanical assemblies by taking advantage of the extraordinary flexibility and precision of the AOD (acousto-optic deflector) subsystem combined with smart sensorics and associated algorithms.
Precision
The AOD implementation in the DaLI system offers laser beam positioning at more than 100,000 arbitrary positions per second with sub nanometer accuracy over a range of a few hundred micrometers big area without a mechanical movement of a single component. In combination with the positioning table, the DaLI system scales the above advantages to a 100 × 100 mm big area.
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"The company's sales and installation personnel are enthusiastic and professional. After the installation and acceptance, the manufacturer’s technical engineers helped improve the process and improved the process stability, which provided great help for our research work."
Prof. Chang-Jin Zhang
Center for Strong Magnetic Field Science, Hefei Institute of Material Science
"We deal with microfluidics or, more specifically, dielectric wetting (EWOD). Dali is used to make masks for process of electrodes sputtering on substrates. It's great because Dali allows us to make any electrode geometry and do it relatively quickly. The distance between the individual electrodes is very important and must be as small as possible. In addition, the device itself and its interface are relatively easy to use and you quickly get used to them. And of course, customer support is great."
Urban Tomc
Department of Thermal and Environmental Engineering, Laboratory of Refrigeration and District Energy
"Laboratory of Organic Matter Physics is engaged in research on charge transport, photoconductivity, and initial growth of organic semiconductors on graphene and other 2D nanostructures. Dali is a device that allows us to accurately fabricate metal electrodes on nanostructures, which is crucial for the course of our research. We use the device daily, several days a week. We appreciate its accuracy, compactness, speed, friendly interface, and extensive range of structure design tools."
Assoc. prof. dr. Egon Pavlica
University of Nova Gorica, Laboratory of Organic Matter Physics
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Would you like to become our representative?
"The company's sales and installation personnel are enthusiastic and professional. After the installation and acceptance, the manufacturer’s technical engineers helped improve the process and improved the process stability, which provided great help for our research work."
Prof. Chang-Jin Zhang
Center for Strong Magnetic Field Science, Hefei Institute of Material Science
"We deal with microfluidics or, more specifically, dielectric wetting (EWOD). Dali is used to make masks for process of electrodes sputtering on substrates. It's great because Dali allows us to make any electrode geometry and do it relatively quickly. The distance between the individual electrodes is very important and must be as small as possible. In addition, the device itself and its interface are relatively easy to use and you quickly get used to them. And of course, customer support is great."
Urban Tomc
Department of Thermal and Environmental Engineering, Laboratory of Refrigeration and District Energy
"Laboratory of Organic Matter Physics is engaged in research on charge transport, photoconductivity, and initial growth of organic semiconductors on graphene and other 2D nanostructures. Dali is a device that allows us to accurately fabricate metal electrodes on nanostructures, which is crucial for the course of our research. We use the device daily, several days a week. We appreciate its accuracy, compactness, speed, friendly interface, and extensive range of structure design tools."
Assoc. prof. dr. Egon Pavlica
University of Nova Gorica, Laboratory of Organic Matter Physics
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Would you like to become our representative?
"The company's sales and installation personnel are enthusiastic and professional. After the installation and acceptance, the manufacturer’s technical engineers helped improve the process and improved the process stability, which provided great help for our research work."
Prof. Chang-Jin Zhang
Center for Strong Magnetic Field Science, Hefei Institute of Material Science
"We deal with microfluidics or, more specifically, dielectric wetting (EWOD). Dali is used to make masks for process of electrodes sputtering on substrates. It's great because Dali allows us to make any electrode geometry and do it relatively quickly. The distance between the individual electrodes is very important and must be as small as possible. In addition, the device itself and its interface are relatively easy to use and you quickly get used to them. And of course, customer support is great."
Urban Tomc
Department of Thermal and Environmental Engineering, Laboratory of Refrigeration and District Energy
"Laboratory of Organic Matter Physics is engaged in research on charge transport, photoconductivity, and initial growth of organic semiconductors on graphene and other 2D nanostructures. Dali is a device that allows us to accurately fabricate metal electrodes on nanostructures, which is crucial for the course of our research. We use the device daily, several days a week. We appreciate its accuracy, compactness, speed, friendly interface, and extensive range of structure design tools."
Assoc. prof. dr. Egon Pavlica
University of Nova Gorica, Laboratory of Organic Matter Physics
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.