Rigaku Oxford Diffraction (ROD) Introduces New High-flux Dual Wavelength X-ray Diffractometer

Rigaku Oxford Diffraction debuts new XtaLAB Synergy-DW dual wavelength chemical crystallography X-ray diffractometer October 6, 2017 – The Woodlands, TX. Rigaku Oxford Diffraction announced the release of a new dual wavelength single crystal diffractometer, the XtaLAB Synergy-DW, at the 24th Congress & General Assembly of the International Union of Crystallography (IUCr). The XtaLAB Synergy-DW system is... Read more

Rigaku introduces new simultaneous WDXRF system for high-throughput analysis

Rigaku Simultix 15 is the newest version of the popular multi-channel simultaneous wavelength dispersive X-ray fluorescence (WDXRF) spectrometer system. August 8, 2017 – Tokyo, Japan. Rigaku Corporation today has introduced the newest version of their renowned multi-channel simultaneous wavelength dispersive X-ray fluorescence (WDXRF) spectrometer system, the Simultix 15 high-throughput WDXRF spectrometer. For over 40 years, the... Read more

Rigaku introduces new NANOPIX mini benchtop small angle X-ray scattering (SAXS) system

New instrument enables non-destructive evaluation of the distribution of nanoparticles or nanopores by size August 1, 2017 – Tokyo, Japan. X-ray scientific, analytical and industrial instrumentation manufacturer Rigaku Corporation, has announced the NANOPIX mini, the world’s first benchtop small angle X-ray scattering (SAXS) system that delivers automatic nanoparticle size distribution analysis for both quality control (QC) and... Read more

Rigaku introduces new ZSX Primus 400 WDXRF spectrometer for large and heavy samples

New WDXRF spectrometer from Rigaku enables elemental analysis of large objects by WDXRF spectroscopy with micro-mapping July 31, 2017 – Tokyo, Japan. Rigaku Corporation is pleased to announce the introduction of the new Rigaku ZSX Primus 400 sequential wavelength dispersive X- ray fluorescence (WDXRF) spectrometer. The new instrument was conceived specifically to handle very large and/or heavy... Read more

Rigaku to Feature Latest Instruments at American Chemical Society National Meeting & Exposition

Rigaku will be in attendance at the 2017 American Chemical Society National Meeting & Exposition, promoting its benchtop XRD and XRF spectrometers July 25, 2017 – The Woodlands, TX. Rigaku Corporation is pleased to announce its attendance at the 254th American Chemical Society National Meeting & Exposition (ACS) in Washington, D.C., Sunday, August 20, 2017 through... Read more

Rigaku Analytical Devices to present feature enhancements to handheld Raman analyzer at IAFC Hazmat Response Teams Conference

New capabilities of Rigaku Progeny ResQ 1064nm handheld Raman will streamline user’s incident response Wilmington, MA, – June 16, 2017 – Rigaku Corporation is pleased to announce that Rigaku Analytical Devices, a leading provider of innovative handheld spectrometers, will be demonstrating feature enhancements of its Rigaku Progeny ResQ handheld 1064nm Raman analyzer, this week at... Read more

Rigaku announces 6th Generation MiniFlex benchtop XRD system

The 6th generation Rigaku MiniFlex X-ray diffraction system is designed for enhanced performance and flexibility June 1, 2017 – Tokyo, Japan. X-ray scientific, analytical and industrial instrumentation manufacturer Rigaku Corporation has announced the new 6th generation Rigaku MiniFlex benchtop X-ray diffraction (XRD) instrument. The new MiniFlex X-ray diffractometer is a multipurpose analytical instrument that can... Read more

Rigaku Launches the SmartLab SE Multipurpose X-ray Diffractometer with Built-in Intelligent Guidance

Rigaku introduces new multipurpose X-ray diffraction system with built-in intelligent guidance to optimize hardware configuration and settings for specific application measurements TOKYO, April 4, 2017 /PRNewswire/ — Rigaku Corporation is pleased to announce the release of the Rigaku SmartLab SE system, a highly versatile multipurpose X-ray diffractometer with built-in intelligent guidance. The SmartLab® SE system offers... Read more