The handheld/portable/benchtop X-Ray fluorescence (XRF) analyzer is capable of qualitative and quantitative analysis of solid, powder, liquid and other samples from NA-U and analysis concentrations from 100% to ppm.
With the characteristics of high sensitivity, fast analysis speed and ppb level detection limit, it is widely used in ecological environment, food safety, biological medicine, material science, geochemistry, scientific research and other fields.
产、化学化工、制药工业、金属冶金、新能源、半导体及文物保护等领域X-ray diffraction (XRD) technology enables precise analysis of key material properties, including crystal structure, phase composition, lattice parameters, grain size, microstrain, and crystallographic orientation. This technique is widely applied in fields such as materials science, geology and mineral resources, chemistry and chemical engineering, pharmaceuticals, metallurgy, new energy, semiconductors, and cultural heritage conservation.
Suitable for multi-layer coating thickness measurement and material analysis, can be used for quantitative and qualitative analysis of the element composition of samples, it also can be used for coating system thickness measurement.
Accurate precious metal analysis is crucial to ensuring product quality and improving economic profits in precious metal industry including jewelry manufacturing, gold production, jewelry recycling and precious metal testing institutions. LANScientific provides comprehensive precious metal non-destructive rapid analysis solutions by different types of precision analytical instruments including portable, handheld and benchtop devices to meet the test needs of different scenarios.
It can analyze the molecular composition, structure and relative content of various solid, liquid and gaseous substances to realize the identification and qualitative of substances. It can also be used in combination with other technologies to determine the type and structure of samples more efficiently.
Based on the internet of things data transmission + big data + information software, to create intelligent online monitoring solutions for customers, without personnel on duty, easy to realize real-time continuous detection/monitoring and remote monitoring.
It has the characteristics of rapid and in-situ analysis and is suitable for a variety of substances, including solids, liquids and gases. It does not require complex sample pretreatment and is widely used in metal materials, ores, environmental monitoring, materials science, archeology, industrial process control and other fields.
With innovative technology (real-time combined analysis of Scanning Electron Microscopy (SEM) and Energy Dispersive Spectroscopy (EDS)), we break through traditional boundaries to provide an unprecedented microscopic exploration experience. Offering exceptional nanoscale resolution, a user-friendly interface, and rapid imaging capabilities, it easily meets high-precision analytical needs in materials science, biomedicine, and nanotechnology.
Employing synchrotron radiation-level detection technology, it can precisely analyze the local coordination environment and electronic state structure of atoms in materials. This series is widely applied in fields such as catalytic mechanism research, battery material characterization, and environmental pollutant speciation analysis. It provides key microscopic information—including element valence states, bond lengths, and coordination numbers—to universities, research institutes, and enterprises, supporting the development of new materials and the exploration of underlying mechanisms.
