Showing results: 91 - 105 of 229 items found.
-
Bruker microCT
Total reflection X-ray fluorescence spectrometry (TXRF) is a well-established method for trace element analysis on a variety of samples.
-
Labodam
X-ray fluorescence sulfur in oil analyzer, dark petroleum products sulphur content tester (tubular oven method)
-
LI-600 -
Li-Cor Environmental, Inc.
The LI-600 is the only handheld instrument that measures both stomatal conductance and chlorophyll fluorescence over the same leaf area.
-
Genius-XRF -
Zhengzhou Nanbei Instrument Equipment Co. Ltd
Based on the mature technology of desktop X-ray fluorescence analyzer and the latest technological development, and on the performance of the existing international commercial handheld X-ray fluorescence analyzer, adding new elements into it on the basis of the first, second, and third generation, Skyray Instrument has developed the intellectual portable fourth generational handheld analyzer-Genius XRF series, which can satisfy the market requirements and possess independent intellectual property rights.
-
IsoPlane® 81 -
Teledyne Princeton Instruments
The IsoPlane® 81 (previously known as FERGIE) is a compact, imaging spectrograph encompassing UV-NIR wavelengths ideal for microspectroscopy such as Raman, fluorescence, and absorption.
-
Bruker Nano Surfaces
Micro X-ray fluorescence spectrometry is the method of choice for the elemental analysis of non-homogeneous or irregularly shaped samples as well as small objects or even inclusions.
-
Bruker microCT
Micro X-ray fluorescence spectrometry is the method of choice for the elemental analysis of non-homogeneous or irregularly shaped samples as well as small objects or even inclusions.
-
Becker & Hickl GmbH
As technology leader in equipment and techniques for single photon counting, Becker & Hickl offers a wide range of high-grade Fluorescence Lifetime Imaging (FLIM) systems for laser scanning microscopes since 1998. Our techniques have found broad application within the scope of Life Sciences, Clinical FLIM, Diffuse Optical Tomography (DOT), Fluorescence Correlation (FCS, FCCS), Förster Resonance Energy Transfer (FRET) and more.
-
CCM-300 -
Opti-Sciences, Inc.
The CCM-300 uses a proven fluorescence ratio technique for chlorophyll content measurement at an affordable price. Readout is directly in chlorophyll content mg/m2, and measurement ratio.
-
Micromatter
We manufacture high accuracy reference standards capable of calibrating virtually any X-Ray Fluorescence (XRF) coating thickness and composition analysis system.
-
LI-600N -
Li-Cor Environmental, Inc.
The LI-600N Porometer/ Fluorometer is the only instrument specifically optimized to measure the stomatal conductance and chlorophyll fluorescence of a single needle, narrow leaf, or blade of grass.
-
AQMS-550 -
Focused Photonics Inc.
AQMS-550 is equipped with an internally mounted catalytic converter set at 315°C to convert H2S to SO2. Bypassing the sample through an SO2 scrubber which removes any SO2, the H2S is converted to SO2 using this internal H2S converter and measured using the pulsed fluorescence technique.AQMS-550 H2S analyzer adopts UV fluorescence principle with an internal thermal catalytic converter to measure H2S in ambient air at levels commonly required.
-
Edinburgh Instruments Ltd
AGILE features a broadband spectral output from <400 nm to >2000 nm and pulse repetition rates from 10 kHz to 1 MHz, making it the ideal light source for the majority of fluorescence lifetime applications. Using the Time-Correlated Single Photon Counting (TCSPC) technique, fluorescence lifetimes from a few picoseconds to microseconds can be accurately resolved. It is also compatible with Multi-Channel Scaling (MCS) mode for lifetimes up to 10 μs.
-
Napco Precision Instruments Co
Provides the lowest cost option for gold purity analysis needs. A proportional counter system, this the lowest priced X-ray fluorescence unit in the gold tester filed.
-
Aqualog - A-TEEM -
HORIBA, Ltd.
A-TEEM™ Molecular Fingerprinting is a new optical technique that is ideal for comprehensive component analysis in a variety QC/QA applications, from water to wine to pharmaceuticals and more. It is a simple, fast, “column free” spectroscopic technique that simultaneously measures the absorbance, transmission and fluorescence of samples in solution, and offers unique benefits over traditional analytical techniques, such as chromatography, mass spec, IR, etc.. Fundamentally, this technique is best applied to samples in solution that have fluorescing components, like an aromatic molecule, although it also detects non-fluorescing species via absorbance. The fluorescence EEM fingerprint technique has also been applied to solids and skin. Fluorescence is a highly sensitive technique compared to other spectroscopic techniques such as absorbance, FTIR and Raman, and the three-dimensional nature of the data provides for a better foundation for complex component analysis.