Electron Spin Resonance (ESR) Measurement

Service/Product Name:

Electron Spin Resonance (ESR) Measurement

Brief Description of the Service/Product:

Measurement of electron spin resonance in the X-band (10 GHz), K-band (25 GHz), and Q-band (34 GHz) frequency ranges, within the temperature interval of 90–500 K, with a maximum magnetic field of 1.4 T.

Available Equipment and Personnel for Service Provision/Product Manufacturing:

Electronic Spin Resonance (ESR) Measurements

• Spectrometer: ELEXSYS E500, Bruker BioSpin GmbH.
• Measurement capabilities: X-band (10 GHz), K-band (25 GHz), Q-band (34 GHz) in the temperature range of 90–500 K, with a maximum field strength of 1.4 T.

Human Resources

• Staff expertise includes two Doctors of Science and two Candidates of Science.

Certification of Equipment and Instruments

In 2021, the software was updated, and the equipment was calibrated with the involvement of specialists from Bruker BioSpin GmbH.

Availability of Intellectual Property Protection Documents and Their Validity

-

Approximate Price of the Service/Product

Determined by the costs of conducting measurements.

Problems Addressed by This Service/Product

Determination of the composition, state, and characteristics of the magnetic structure.

Potential Consumers of This Service/Product by Industries and Enterprises

Scientific research institutions and enterprises in the chemical and electronics industries

Electron Spin Resonance (ESR or EPR) measurements are valuable for a wide range of companies and organizations across the following sectors:

1. Pharmaceutical Industry: Companies developing new drugs to study the structures and dynamics of molecules and analyze free radicals in biological systems.
2. Chemical Industry: Manufacturers of chemicals and materials to investigate reaction mechanisms, study catalysts, and assess the stability of chemical compounds.
3. Materials Science and Nanotechnology: Organizations developing new materials, such as nanomaterials, polymers, and composites, to explore their electronic properties and behavior under different conditions.
4. Electronics and Semiconductors: Semiconductor manufacturers to analyze defects in crystalline structures, assess impurities, and improve material quality.
5. Biotechnology and Biomedical Research: Companies investigating biological systems to study protein structures, DNA, and other biomolecules, as well as to analyze free radicals in living organisms.
6. Energy Industry: Battery and fuel cell manufacturers to research electrode materials, electrolytes, and processes occurring during charging and discharging.
7. Environmental Monitoring and Quality Control: Organizations analyzing pollutants to detect and study free radicals in the environment, water, air, and soil.
8. Food Industry: Food producers for analyzing the stability of additives, studying oxidation processes, and ensuring product quality control.
9. Defense and Space Industries: Companies developing materials for use in extreme conditions, such as space or military applications, where studying the electronic and magnetic properties of materials is critical.
10. Medical Equipment: Manufacturers of medical devices like Magnetic Resonance Imaging (MRI) systems to improve diagnostic capabilities and develop new investigative techniques.

Electron Spin Resonance measurements enable these organizations to acquire critical data on the structure, dynamics, and reactivity of materials and biomolecules, driving advancements in technology, product development, and research methodologies.

Approximate Timeframes for Service/Product Completion

a) For Prototype Sample:
b) For Pilot Batch:
c) For Production Implementation:

The measurement time for a single sample is 24 hours.