Analytical services
Nanoampere Materials Pvt Ltd is a leading provider of analytical services for a wide range of scientific equipment, catering to the needs of researchers and scientists. With a team of highly skilled professionals, we offer precise and accurate analysis of various materials, helping our clients to achieve their research goals with confidence. Our state-of-the-art facility is equipped with the latest technology, ensuring that we deliver reliable results to our esteemed customers. Whether it's testing, calibration, or validation of scientific equipment, we are committed to providing exceptional services that meet the highest standards. At Nanoampere Materials Pvt Ltd, we understand the importance of accuracy and reliability in scientific research, and we are dedicated to supporting our clients in their endeavors to advance knowledge and innovation. Trust us to be your partner in scientific analysis and exploration.
Analytical services
Powder XRD
X-Ray Diffraction technique is widely used in material science research for studying the crystal structure, phase identification, and composition analysis of various materials. X-ray diffractometers are also utilized in the analysis of thin films, nanoparticles, polymers, and even biological samples.
Fourier transform infrared (FTIR) Spectroscophy
FTIR spectroscopy is widely used in material science to analyze the chemical composition and structure of materials, such as polymers, ceramics, and composites. FTIR spectroscopy is an effective tool to study the bonding characteristics, functional groups, and molecular vibrations present in different materials.
Scanning Electron Microscope
Scanning electron microscopy is an important tool used to study the microstructure of materials, including their surface topography, morphology, and composition. SEM can provide high-resolution images that reveal the fine details of a material's structure, which is essential for understanding its properties and behavior. Additionally, it can be used to analyze the presence of impurities, defects, and cracks in materials, which is crucial for quality control and performance assessment. Moreover, SEM can also be utilized for studying the effects of various treatments and processes on materials, such as heat treatment, alloying, and surface modification.
Electro Chemical WorkStation
The electrochemical workstation has found various brief applications in the fields of energy storage and energy production. In energy storage, it is used to understand the electrochemical processes involved in batteries and supercapacitors, which helps in developing more efficient and long-lasting energy storage devices. In energy production, the workstation is utilized for studying electrocatalysis and photoelectrochemical processes, which are essential for developing renewable energy sources such as fuel cells and solar cells. Overall, the electrochemical workstation plays a crucial role in advancing both energy storage and energy production technologies, leading to a more sustainable and environmentally-friendly energy landscape.
Transmission Electron Microscope
Transmission electron microscope (TEM) has become an indispensable tool in material science research due to its ability to provide high-resolution images and detailed structural information of materials at the atomic level. It is widely used to study the microstructure, defects, and interfaces of various materials including metals, ceramics, polymers, and semiconductors. By utilizing TEM, researchers can observe and analyze the crystallographic structure, grain boundaries, and nanoscale features, which are crucial for understanding the mechanical, electrical, and optical properties of materials.
UV Visible Spectroscopy
UV visible spectroscopy is widely used in material science research for various applications. It is used for analyzing the electronic structure of materials, determining the presence of impurities, and studying the formation of chemical bonds. Additionally, it helps in identifying the optical properties of materials, such as their absorption and transmission characteristics. This technique is also valuable in investigating the degradation and stability of materials under different environmental conditions.
©Copyright • 2023 • Legal
NanoAmpere Materials Pvt Ltd
Our vision is to see the sustainable world by innovating high efficient nanotechnological products in batteries, renewable energy and carbon reduction technologies.
Nano materials
Metal oxides
Tungstates and Molybdates
Nanocomposites
2D Materials
Nanodispersion
Battery Materials
Lab Accesories
Crucibles
Electrochemical Accessories