Equipment at the ETC
Welcome to the advanced instrumentation section, where anyone can request samples from the ETC. In this section, it is possible for single researchers and research teams to request experimental work with the use of modern equipment. Our facility has a diversity of advanced pieces of equipment that are tailored towards both beginners and experienced electrochemistry samples. With our online booking system that is simple to use and highly professional staff, you can request samples with the help of experts available.
X-ray Photoelectron Spectroscopy (XPS) is used to analyze the surface chemistry of a material. It provides information about the elemental composition and chemical state of the elements present.
- Provides detailed elemental composition.
- Analyzes chemical states and bonding environments.
- Used for surface analysis.
Price: TBD.
Raman Spectroscopy provides information about vibrational, rotational, and other low-frequency modes in a system. It is used to characterize materials and their interactions.
- Non-destructive analysis technique.
- Identifies molecular composition.
- Useful for studying molecular vibrations.
Price: TBD.
Infrared Spectroscopy measures the absorption of infrared light by a sample to determine its molecular composition and structure.
- Detects molecular vibrations and rotations.
- Useful for identifying functional groups.
- Commonly used in organic chemistry.
Price: TBD.
Electrochemical Measurement involves assessing the electrical properties of a chemical system, such as potential and current, to study the reactions occurring in the system.
- Measures electrical response of materials.
- Used for studying electrochemical reactions.
- Important for battery and fuel cell research.
Price: TBD.
X-ray techniques are used to analyze the structure of materials by examining how X-rays are absorbed and scattered by the material.
- Non-destructive testing method.
- Provides structural information.
- Used in crystallography and material science.
Price: TBD.
Photoelectron Spectroscopy involves ejecting electrons from a material using photons and measuring their kinetic energy to determine the material’s electronic structure.
- Provides information about electronic states.
- Analyzes surface and bulk properties.
- Used for studying semiconductor and catalytic materials.
Price: TBD.