Applications from the field of Energy & Chemicals | LabRulez ICPMS
A Fast Method of Studying the Impact of Temperature on Chemical Reactions
Applications
| 2018 | Agilent Technologies
UV–VIS spectrophotometry
Instrumentation
UV–VIS spectrophotometry
Manufacturer
Agilent Technologies
Industries
Energy & Chemicals
Investigation of photochemical reactions using the Cary 50/60 UV-Vis
Applications
| 2011 | Agilent Technologies
UV–VIS spectrophotometry
Instrumentation
UV–VIS spectrophotometry
Manufacturer
Agilent Technologies
Industries
Energy & Chemicals
Butyl glycol and propylheptyl alcohol in water-borne paint
Applications
| N/A | Metrohm
NIR Spectroscopy
Instrumentation
NIR Spectroscopy
Manufacturer
Metrohm
Industries
Energy & Chemicals
The Determination of Metals in Chlorinated Hydrocarbons by Flame Atomic Absorption
Applications
| 2010 | Agilent Technologies
AAS
Instrumentation
AAS
Manufacturer
Agilent Technologies
Industries
Energy & Chemicals
Monitoring of Algae Growth by TOC Measurement
Applications
| 2014 | Shimadzu
TOC
Instrumentation
TOC
Manufacturer
Shimadzu
Industries
Energy & Chemicals
Real-time inline predictions of jet fuel properties by NIRS
Applications
| N/A | Metrohm
NIR Spectroscopy
Instrumentation
NIR Spectroscopy
Manufacturer
Metrohm
Industries
Energy & Chemicals
Determination of amine number and solid content of dipping paint
Applications
| N/A | Metrohm
NIR Spectroscopy
Instrumentation
NIR Spectroscopy
Manufacturer
Metrohm
Industries
Energy & Chemicals
Measurement of Sodium and Potassium in Portland Cement by Flame Atomic Absorption Method
Applications
| 2012 | Shimadzu
AAS
Instrumentation
AAS
Manufacturer
Shimadzu
Industries
Energy & Chemicals
Simple, automated measurements of the photocatalytic properties of colorimetric species using the Agilent Cary 60 UV-Vis spectrophotometer with fiber optics
Applications
| 2011 | Agilent Technologies
UV–VIS spectrophotometry
Instrumentation
UV–VIS spectrophotometry
Manufacturer
Agilent Technologies
Industries
Energy & Chemicals
Analyzing Chemical Composition of Rigid Polyurethane (PU) Foams using FTIR Microscopy and DRIFTS-IR