Did you know that in 2024, art photonics GmbH achieved the prestigious 3-A Hygienic Certification for our newly designed NIR Transflection Probe? This milestone underscores our commitment to delivering cutting-edge spectroscopy solutions that adhere to the highest hygienic design standards. Regulatory hurdles often complicate the adoption of in-line spectroscopy for food quality control and process […]
As the year comes to a close, we want to take a moment to express our heartfelt gratitude. Your trust and support have been invaluable to us, and it has been a true pleasure collaborating with you throughout the year. Together, we’ve achieved significant milestones, and we are excited to continue this journey with you […]
We are pleased to announce our participation in SPIE Photonics West 2025, the leading global event for spectroscopy and photonics, taking place from January 25–30 in San Francisco. Additionally, we are excited to present at the BiOS conference on January 26, where we will showcase our latest fiber optic solutions for biomedical and process analytical […]
We’re excited to announce our presence at the 19th Herbstkolloquium Prozessanalytik, taking place from December 4–6, 2024, at Merck Darmstadt. At Booth #1, we will demonstrate how the compact Bruker FTIR Alpha II, equipped with our custom-designed fiber coupler and fiber probe, can be used for remote spectroscopy and advanced process control applications. As a […]
art photonics GmbH, founded in Berlin in September 1998, is one of the worldwide leaders in development and production of specialty fiber products for a broad spectrum from 300 nm to 16 µm. Unique technologies of Polycrystalline Mid InfraRed (PIR-) fibers and Metal coated Silica fibers are used for assembly of various spectroscopy probes for medical diagnostics and industrial process control, in volume production of fiber for medical and industrial lasers, for different fiber bundles, etc. Since January 2024 art photonics GmbH is a member of NYNOMIC GROUP.
art photonics GmbH is pleased to announce that Dr. Stefanie Foerster has been appointed as the new CEO!
Dr. Foerster brings extensive experience in general management, business development, and sales across diverse industries, including environmental, petrochemical, energy, and high-tech industries. She has held senior leadership roles at companies like thyssenkrupp and Siemens, where she has successfully led international teams and managed multi-million P&L responsibilities in various industrial and engineering services sectors.
Her expertise spans across various B2B models, from solution-based services to component manufacturing. She is highly skilled in business process refinement, sales management, project implementation strategies, and risks assessment Dr. Foerster leadership is characterized by her focus on communication, collaboration, and systematic thinking.
Dr. Foerster holds an Executive MBA from the University of St. Gallen and a PhD in Biophysical Chemistry. In addition, she has also pursued a supervisory board certification program and is engaged as a member of the advisory board for a technology sector SME. Her strategic mindset and commitment to innovation align perfectly with the future direction of art photonics.
A Special Thank You to Dr. Viacheslav Artyushenko
We would also like to extend our sincere gratitude to Dr. Viacheslav Artyushenko, the founder and previous CEO of art photonics GmbH, for his exceptional leadership and contributions. Under his guidance, art photonics has become a global leader in fiber-optic technologies.
Dr. Artyushenko will continue to support the company as Senior Advisor, focusing on expanding the knowledge of our industrial and scientific audiences about fiber optics and Process Analytical Technology (PAT) applications. He will play an active role in guiding art photonics’ business development by contributing his extensive experience as the company’s founder.
About art photonics GmbH Since its founding in Berlin over 25 years ago, art photonics GmbH has been at the forefront of fiber-optic technology development. Specializing in products that cover a wide range of spectrums from UV to mid-infrared, art photonics has pioneered the extrusion of polycrystalline infrared fibers (PIR fibers), establishing a full vertical technology for their industrial production. These fibers and cables, along with spectroscopy probes, are used for in-line control of industrial processes utilizing key spectroscopy methods such as absorption, transmission, reflection, and Raman scattering. art photonics continues to set new standards for fiber-optic solutions across industries. Since 2024, art photonics is a part of Nynomic Group, leading international manufacturer of products for permanent, non-contact and non-destructive optical measurement technology.
Introducing the 3A-Certified Transflection Fiber Probe for Enhanced Industrial Process Control
As the food, beverage, and pharmaceutical industries rapidly evolve, maintaining precision and hygiene in production processes has never been more crucial. Our latest innovation, the 3A-Certified Hygienic Transflection Fiber Probe, is designed to meet the most stringent sanitary requirements while delivering real-time, in-line NIR spectroscopy for critical industrial applications.
Key Features of the 3A-Certified Transflection Probe:
3A Certification ensures compliance with the highest hygienic standards for safe, contamination-free operation.
Constructed with a Stainless Steel 316L shaft and sealed with a gold-soldered Sapphire window for exceptional durability.
Built for CIP/SIP (cleaning & sterilization in place) processes without the need for probe extraction, saving valuable time and effort.
Delivers reliable in-line transmission spectroscopy, even in low-transparency liquids, ensuring precise, real-time measurements.
Designed for easy integration into industrial pipelines and reactors, this probe offers a robust solution to optimize process control, ensuring accuracy and efficiency in demanding environments.
For more information on how our 3A-Certified Transflection Probe can enhance your process control, contact ustoday or visit our website for further details.
Upgrade your benchtop FTIR spectrometer to real-time process spectroscopy with the FlexiSpec®-Duo: Coupler+Probe!
If you're tired of time-consuming sample collection and preparation, FlexiSpec-Duo: Coupler+Probe is the solution that eliminates these hassles, enabling continuous monitoring and keeping you in control of your processes.
This coupler and probe are designed to optimize performance for any benchtop FTIR spectrometer, including the ALPHA and ALPHA II FTIR from Bruker.
Key Features:
Efficient Coupling: Compatible with a wide range of FTIR spectrometers (Thermo, Bruker, Jasco, etc.).
Real-Time Analysis: Receive immediate feedback on your process changes.
In Situ Measurement: Measure directly in your process, eliminating the need for tedious sample preparation.
Versatile Compatibility: Works seamlessly with various probes and FTIR spectrometers, including those equipped with our achromatic coupler for external LN-cooled MCT detectors.
User-Friendly Design: Quick and easy installation into the sample chamber means less downtime and increased productivity.
Transform your process control with cutting-edge technology that keeps you informed and in command. Don’t let your capabilities fall behind—upgrade to the FlexiSpec-Duo today!
A year ago, as part of art photonics' 25th Anniversary celebration, we unveiled an exclusive demonstration of our SpectroBar. During our demonstration, we were showcasing how our cutting-edge fiber probes enable remote spectroscopic measurements for solids, liquids, pastes, and powders.
From fluorescence to NIR, Mid-IR to Raman, our fiber probes are designed to meet the diverse needs of both laboratory research and industrial applications.
Explore the capabilities of our Fiber Optic Probes at SpectroBar at future exhibitions and experience the future of remote spectroscopy firsthand!
We are thrilled to announce that our CEO & Founder, Viacheslav Artyushenko, graces the cover of Magnate View Magazine as one of the Top 5 Exceptional Leaders to Follow in 2024!
Viacheslav's groundbreaking work in fiber optics, particularly with Mid-IR fibers, has positioned art photonics GmbH at the cutting edge of technological innovation. His visionary approach is not only advancing the field but also impacting critical industries such as medical diagnostics, aerospace, and industrial process control.
Since founding art photonics GmbH in 1998, Viacheslav has driven our mission to push the boundaries of fiber optic technology, fostering a culture of creativity and collaboration that fuels our continued success. His leadership and dedication are at the heart of our achievements and future aspirations.
Curious about Viacheslav’s journey and our innovative solutions? Dive into the full article and discover how we’re shaping the future of technology: Read More
We are thrilled to announce the release of our latest Application Note, detailing the advanced use of mid-infrared fiber spectroscopic techniques for real-time monitoring of biomass, ethanol, and crucial hydrocarbons during the yeast fermentation process.
Traditional analytical methods often face challenges when dealing with the complexity and speed required in biotechnological processes. Our innovative approach, leveraging the ATR Fiber Probe, provides a breakthrough solution for in-line process analysis, significantly enhancing both product quality and operational efficiency.
Explore how fiber-based spectroscopy can transform bioprocess control, driving industrial biotechnology towards unparalleled precision and reliability.
Metal coated fibers (Cu- and Al-) are the optimal solution for applications in high temperature, vacuum and harsh environment conditions. They are available in:
UV-VIS (High-OH) and VIS-NIR (Low-OH) ranges;
Single mode and Multimode with core diameters up to 600 um;
We are excited to share our new Application Note detailing the innovative multimode fiber optic probe for simultaneous spectroscopic analysis.
Key advantages:
Simultaneous Fluorescence & ATR mid-IR Measurements: This probe allows for the concurrent use of Fluorescence and Attenuated Total Reflection (ATR) Mid-IR spectroscopy, offering comprehensive chemical information from a single measurement point.
Same-Point Analysis: Measuring at one single location, the probe delivers precision in its measurements, essential for non-homogeneous samples such as biological tissues.
In-Line Measurement: Designed for direct use in the area of interest, the probe facilitates real-time, in situ analysis without the need for sample preparation.
Discover how combining spectroscopic techniques enhances analytical capabilities, especially in challenging fields like medical diagnostics.
Metal coated fibers (Cu- and Al-) are the optimal solution for applications in high temperature, vacuum and harsh environment conditions. They are available in:
UV-VIS (High-OH) and VIS-NIR (Low-OH) ranges
Single mode and Multimode with core diameters up to 600 um
We are excited to share one of our latest articles, showcasing the groundbreaking capabilities of our multispectral Combi Probe! This innovative fiber optic design enables simultaneous analysis using both mid-infrared (Mid-IR) and fluorescence spectroscopy, offering unparalleled efficiency in spectroscopic analysis.
What is the Combi Probe?
The Combi Probe is a versatile tool designed for the simultaneous measurement of Mid-IR and fluorescence spectra. This dual-functionality probe combines the strengths of both techniques, providing comprehensive chemical information from a single measurement point.
Why Use Two Spectroscopic Methods?
Utilizing both Mid-IR and fluorescence spectroscopy allows for a more detailed and reliable analysis:
Mid-IR Spectroscopy: Offers precise chemical composition analysis at a molecular level, ideal for identifying various chemical bonds and functional groups.
Fluorescence Spectroscopy: Excels in detecting specific biomolecules and structural changes within tissues, making it indispensable for applications in biomedical diagnostics.
Real-World Applications
Our recent tests on biological tissues have demonstrated the probe's capability to differentiate between various tissue types with high precision, especially when one modality alone could not achieve this. This advancement is particularly promising for tumor diagnostics, where accurate detection of tumor margins is crucial.
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