Explore our range of cutting-edge scientific solutions designed to revolutionize your research and analysis processes. Powered by the SPINSCAN Benchtop X-band EPR Spectrometer, our suite of instruments offers unparalleled precision and efficiency for a variety of scientific applications. This sophisticated instrument utilizes electron paramagnetic resonance (EPR) spectroscopy for spectra registration in liquid or solid phases to detect paramagnetic species or free radicals.
- Alanine-EPR Dosimetry System:
Building upon the capabilities of our SPINSPAN, this all-in-one system is specifically designed for routine dosimetry in medical clinics and industrial irradiation facilities. - Beer Flavor Stability Analyzer:
Leveraging the dynamic capabilities of our Benchtop X-band EPR Spectrometer, this innovative system accelerates aging tests to predict flavor stability throughout the shelf-life of packaged beer. - Catalyst Studying System:
Powered by our SPINSCAN, this comprehensive solution enables in-depth analysis of catalytically active structures and reaction mechanisms.
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A COMPREHENSIVE SUITE
OF CUTTING-EDGE INSTRUMENTS
Embark on a journey of scientific discovery with our comprehensive suite of cutting-edge instruments, anchored by the powerful Benchtop X-band EPR Spectrometer. Designed to meet the diverse needs of researchers and scientists across various disciplines, our suite offers unparalleled precision, versatility, and efficiency for a wide range of applications.
Unlock New Insights
With our Benchtop X-band EPR Spectrometer as the cornerstone, researchers can unlock new insights into the electronic structures and reactivity of paramagnetic complexes and reactive intermediates. From elucidating catalytic reaction mechanisms to studying molecular structures, this sophisticated instrument provides invaluable data for advancing scientific understanding.
Versatility Across Applications
Our suite of instruments caters to a multitude of applications, ranging from dosimetry and flavor stability analysis to catalyst studies and beyond. Whether you’re monitoring radiation doses in medical clinics, ensuring beer flavor consistency in breweries, or investigating catalyst performance in industrial settings, our instruments deliver precise and reliable results to support your research goals.
Pioneering Technology
Powered by state-of-the-art technology, our instruments boast advanced features and capabilities to meet the demands of modern scientific exploration. From high sensitivity and resolution to comprehensive software packages and automatic self-tests, our instruments offer unparalleled performance and ease of use for researchers at every level.
SPINSCAN X Spectrometer
The new generation of benchtop X-band electron paramagnetic resonance (EPR) spectrometer. To meet new demands SPINSCAN X brings together our more than 40 year experience in EPR and state-of-the-art digital and microwave technologies.
The SPINSCAN X Spectrometer is intended for EPR spectra registration in liquid or solid phases to detect paramagnetic species or free radicals. The main distinctive features of our EPR (ESR) Spectrometer are a compact electromagnet, a microwave bridge. The instrument’s high sensitivity and resolution can only be bettered by systems much more expensive and much larger.
The SPINSCAN X EPR (ESR) Spectrometer is provided with a fully computer controlled system including a comprehensive software package. Built-in frequency meter, magnetic field and temperature sensors, g-factor calculation and a broad dynamic range on the amplifier and the AD converter increase competitive advantages of the SPINSCAN X Spectrometer and give unique solution for scientific and technological purposes
Peculiarities:
- Cavity Q factor and MW power measurement
- Magnetic field modulation – 10 kHz – 250 kHz
- Phase detection range 0-360 degrees
- First and second harmonics detection (in phase and out of phase)
- Amplitude resolution 24 bit
- Broad signal channel dynamic range – digitization up to 140 dB in one scan
- High magnetic field resolution – up to 256 000 pts for any sweep range
- Automatic self- test of system
- 2D – experiments (intensity vs MW power, modulation amplitude, temperature, etc.)
- Interface via Ethernet
- e-Spinoza Software– comprehensive user-oriented software kit with functions for acquisition and mathematic treatment
- Nice and ergonomic design
Catalyst studying system
Delve into the realm of catalysis with our Catalyst Studying System, a sophisticated solution designed to illuminate the intricacies of catalytic processes. Anchored by the powerful Benchtop X-band EPR Spectrometer, our system empowers researchers to unravel the mysteries of catalyst behavior and drive innovation in chemical synthesis and industrial applications.
Our Catalyst Studying System provides unprecedented insight into catalytically active structures and reaction mechanisms, allowing researchers to decipher the underlying processes governing catalyst performance. With high sensitivity and resolution, our system enables the detection and characterization of reactive intermediates, facilitating a deeper understanding of catalytic pathways and reactivity.
Equipped with advanced features such as automated workflows, comprehensive software packages, and precise experimental control, our Catalyst Studying System streamlines the research process and maximizes productivity. Researchers can conduct in-depth experiments with confidence, knowing that our system provides reliable and reproducible results.
Benefits:
- Precision and Accuracy: Our instruments deliver precise and accurate measurements, ensuring reliable data for informed decision-making in research and development.
- Efficiency and Productivity: Streamline your research processes with our user-friendly interfaces and automated workflows, maximizing productivity and saving valuable time.
- Versatility and Adaptability: With a wide range of applications and customizable experimental parameters, our instruments adapt to diverse research needs and support multidisciplinary investigations.
- Confidence in Results: Trust in the reliability and consistency of our instruments to provide actionable insights and drive meaningful scientific discoveries.
Experience the Future of Scientific Exploration:
Elevate your research to new heights of precision and efficiency with our suite of cutting-edge instruments, underpinned by the Benchtop X-band EPR Spectrometer. Join us in advancing scientific exploration and unlocking the mysteries of the natural world.
Beer flavor stability analyzer
Flavor stability relates to the rate of flavor change through the shelf-life of packaged beer. The fermentation and the influence of yeast are key control points in the production of beer where flavor stability may be altered.
Electron Paramagnetic Resonance Spectroscopy is a unique tool for direct free radicals detection. Accelerated beer aging test with ESR spin-trapping assay method is the easiest way and shorter analysis time to estimate the shelf life of beer.
Experiment with brewing technique and use Paramagnetic Resonance Spectroscopy to predict when beer is getting bad.
- Package for lag time beer test
- Benchtop ESR Spectrometer SPINSCAN XB
- Thermo Bath with magnetic stirring
- Flow through system (pump, cell, hoses)
- Lab ware
- Spin Trap Kit
- Software package
- Beer Lag Time apps
Alanine-EPR dosimetry system
Unparalleled accuracy and reliability in dosimetry with our all-in-one Alanine-EPR Dosimetry System, meticulously designed for routine dosimetry in industrial irradiation facilities or as an in-house alanine reference dosimetry system.
Provided Quality: Experience unmatched quality with our system, as the SPINSCAN spectrometer offers a superior measurement response signal and higher measurement sensitivity than any other bench-top EPR spectrometer on the market today. Trust in the precision of our instrument to deliver accurate dosimetry data for your research and industrial applications.
Fast measurements: Streamline your dosimetry processes with our system’s ability to sensitively cut measurement durations. Save valuable time and resources without compromising on the accuracy and reliability of your dosimetry measurements, allowing for efficient data acquisition and analysis.
Reliable hardware: Rely on the durability and robustness of our SPINSCAN spectrometer, built with advanced technology to withstand the demands of industrial environments. With an uptime of more than 99%, our system ensures continuous and reliable operation, providing uninterrupted dosimetry capabilities for your research and industrial needs.
System Flexibility: Experience unparalleled flexibility with our system’s ability to accommodate a wide range of commercially available alanine dosimeters. With modified holders, our system adapts to your specific dosimetry requirements, allowing for seamless integration into existing workflows and experimental setups.
Key features 
Compact Design
Experience the convenience of a compact electromagnet and microwave bridge, ensuring portability without compromising on performance
Educational Practice
Enjoy access to the capabilities of large spectrometers, making it ideal for educational purposes and research training
Optimized Magnetic Field
Benefit from an optimized magnetic field that is accurate, stable, and homogeneous, ensuring precise and reliable measurements
High Sensitivity
Achieve research-grade sensitivity and resolution, empowering detailed analysis and exploration of complex systems
Built-in Frequency Counter
Seamlessly integrate frequency measurement into your workflow with the built-in frequency counter and g-factor measurement
User-Oriented Software
Navigate data acquisition and analysis effortlessly with the e-Spinoza Software, featuring user-friendly functions tailored for both novice and experienced researchers
Compact Design
Experience the convenience of a compact electromagnet and microwave bridge, ensuring portability without compromising on performance
Educational Practice
Enjoy access to the capabilities of large spectrometers, making it ideal for educational purposes and research training
Optimized Magnetic Field
Benefit from an optimized magnetic field that is accurate, stable, and homogeneous, ensuring precise and reliable measurements
High Sensitivity
Achieve research-grade sensitivity and resolution, empowering detailed analysis and exploration of complex systems
Built-in Frequency Counter
Seamlessly integrate frequency measurement into your workflow with the built-in frequency counter and g-factor measurement
User-Oriented Software
Navigate data acquisition and analysis effortlessly with the e-Spinoza Software, featuring user-friendly functions tailored for both novice and experienced researchers
Our versatile products and solutions cater to a diverse array of industries and research fields, meeting the evolving demands of clients across various sectors. Explore the wide range of applications where our products excel:
- 1. EPR & Chemistry of Oil and Petroleum Products: Monitor stability, detect thermal decomposition lag times, and analyze coking reactions, offering invaluable data for oil refining and energy sector research.
- 2. EPR in Food Chemistry: Assess quality indicators, determine oxidative stability, and evaluate antiradical activity, ensuring the integrity and safety of food products.
- 3. EPR in Polymer Chemistry: Study free radical processes, assess polymer wear, and monitor photodegradation for applications in materials science, product development, and industrial processes.
- 4. Catalysis: Explore catalyst mechanisms, predict new reactions, and optimize production processes for enhanced efficiency and sustainability.
- 5. Photochemistry/Electrochemistry by EPR: Investigate free radical formation, study photodegradation mechanisms, and explore the potential of solar energy applications with unparalleled precision.
- 6. EPR Alanine Dosimetry: Utilize stable free radicals in crystalline alanine to measure absorbed doses accurately, facilitating radiation dose control in food irradiation and medical sterilization applications.
- 7. Free Radicals and Antioxidants: Study the impact of free radicals on biological processes, assess antioxidant efficacy, and advance research in health sciences and nutrition.
- 8. EPR in Geology: Explore mineralogical composition, identify gemstones, and optimize conditions for obtaining precious stones, offering valuable data for geological research and mineral exploration.
- 9. EPR Spectroscopy Course and Instrumentation for Education: Offer students hands-on experience with magnetic resonance spectroscopy methods, fostering the development of practical skills and innovative solutions for future challenges.
Our integrated solutions, advanced software, and comprehensive range of accessories simplify the experimental process, allowing researchers to focus on their scientific objectives without the hassle of equipment compatibility issues.
With precise temperature control, automated sample handling, and high-quality glassware, our products ensure accurate and reliable experimental results, empowering researchers to make confident conclusions based on robust data.
From catalyst studying to beverage analysis and beyond, our solutions cater to a wide range of research applications, offering versatility and adaptability to meet the diverse needs of researchers in various fields.
Technical data
Technical details
| Sensitivity | 8×109 spins / 0,1 mT |
| Resolution | 0,005 mT |
| Maximum magnetic field | 0,7 T |
| Sweep width | 10-4—0,65T |
| Operating Frequency | X-band |
| Microwave power | 0,01—200 mW |
| Magnetic field modulation | 10—250 kHz |
| MW bridge and cavity tuning | Automatic |
| Cavity | TE102 |
| Q unloaded | 5000 |
| Amplitude resolution | 24 bit |
Dimensions
| Overall dimensions | |
|---|---|
| Width | 470 mm |
| Length | 380 mm |
| Height | 260 mm |
| Weight (maximum) | 45 kg |
|---|
Technical details
| Sensitivity | 8×109 spins / 0,1 mT |
| Resolution | 0,005 mT |
| Maximum magnetic field | 0,7 T |
| Sweep width | 10-4—0,65T |
| Operating Frequency | X-band |
| Microwave power | 0,01—200 mW |
| Magnetic field modulation | 10—250 kHz |
| MW bridge and cavity tuning | Automatic |
| Cavity | TE102 |
| Q unloaded | 5000 |
| Amplitude resolution | 24 bit |
Dimensions
| Overall dimensions | |
|---|---|
| Width | 18,5″ |
| Length | 14.9″ |
| Height | 10.2″ |
| Weight (maximum) | 99.2 lbs |
|---|
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