Gör dina kvalitetskontroller enklare med Analytik Jenas högpresterande instrument.
Analytik Jenas högpresterande instrument ger dig mer information om dels den kemiska sammansättningen men även om egenskaperna hos avancerade material och kemiska produkter. Instrumenten används dagligen både av forskningslaboratorier samt laboratorier som gör kvalitetskontroller. De mycket effektiva och robusta analysinstrument förenklar inte bara ditt dagliga rutinarbete utan ser också till att förbättra produktkvalitén på lång sikt tack vare bättre och säkrare kvalitet i dina mätdata.
Vi har många applikationsexempel att dela med oss av från leverantörerna. Nedan finner du ett urval. Skulle det vara något du saknar, tveka inte höra av dig till oss så tar vi fram det du söker.
AAS
- Copper Quantification in Geological Samples by Flame-AAS
- Determination of Fluorine in Geological Samples on the contrAA 800 G Continuum-Source AAS
- Elemental Analysis During the Electroplating Process with contrAA 800
- Fast Analysis of Lithium Ore Using Flame-AAS contrAA 800
Elementanalys (C/N/S/Cl)
- Direct Total Chlorine Determination in Plastic Materials
- Determination of Total Chlorine in Solid Recovered Fuels Using High Temperature Combustion and Coulometric Titration
- Determination of Total Halogens in Used Oil
- Analysis of Trace Nitrogen in Highly Volatile Liquid Hydrocarbons by Oxidative Combustion with Chemiluminescence Detection According to UOP 981
- Analysis of Low Trace Sulfur in Highly Volatile Liquid Hydrocarbons by Oxidative Combustion and UV Fluorescence According to UOP 987 Method A
- Determination of Sulfur Species in Cement Samples by Combustion Elemental Analysis coupled with NDIR Detection according to Difference Method
- Determination of CO2 Absorption Rates in Cement and Concrete Recycling by Automated Solids TIC Measurement
- Determination of Total Carbon Content in Foam Glass and Related Samples by Combustion Elemental Analysis Coupled with NDIR Detection
- Recycling of Lithium Ion Batteries (LIB) – Determination of the Elemental and Organically Bound Carbon in Black Mass by Pyrolysis Method
- Fully Automated Determination of Total Sulfur Contents of Methanol and Ethanol by Means of Combustion Elemental Analysis and UV-Fluorescence Detection in Accordance with DIN EN 15486 and ASTM D5453
- Chemical Recycling of Plastics ‒ Analysis of Chlorine, Sulfur, Nitrogen, and Carbon in Pyrolysis Oils, Waxes, and Secondary Products
- Determination of Total Sulfur, Total Nitrogen, and Total Chlorine Contents in Used Cooking Oil (UCO) and Related Bio-borne Fats by Means of Combustion Elemental Analysis
- Combined Determination of Organic Carbon, Sulfur, Nitrogen, and Chlorine Contaminations on Catalyst Surfaces by Combustion Elemental Analysis
ICPMS
- Analysis of Low Level Beryllium in Urine Using the PlasmaQuant MS
- BOOSTing limits of detection for chromium and other trace elements in whole blood
- Determination of Trace Elements in Toys
- Elemental impurities in Pharmaceutical Materials according to new ICH Guidelines and USP Chapters <232> and <233>
- Analysis of Metal Alloys using LA-ICP-MS
- Multi-element Analysis of Biological Materials by ICP-MS using Alkali Dilution
- Determination of Trace Elements in Copper by ICP-MS
- Measuring Toxic Elements in Workplace Filter Dusts According to EN 14385 Using ICP-MS
- Determination of Hexavalent Chromium in Toy Samples According to EN 71-3
- Determination of Trace Elements in Blood Serum and Plasma Using ICP-MS Applying Ready-to-Use IVD Kits
ICPOES
- Analysis of High-alloyed Steel by HR ICP-OES
- Analysis of Rare Earth Elements in Granite and Sandstone by HR ICP-OES
- Comparative Analysis of Rare Earth Elements by ICP-OES and ICP-MS
- Composition Analysis of an Electrolytic Etching Solution by HR ICP-OES
- Detection of Trace Elements in Urea by HR ICP-OES
- Direct Analysis of Saline Matrices by HR ICP-OES
- Determination of Elemental Impurities in Pharmaceuticals by HR-ICP-OES according to ICH Q3D and USP 232 and 233
- Determination of Trace Elements and Main Components in Permanent Magnet Alloys by HR Array ICP-OES
- Precious Metal Analysis in Electronic Waste by HR ICP-OES
- Online Analysis of Lithium in Brine Samples by HR-ICP-OES
- Analysis of Lithium Ore with HR ICP-OES
- Analysis of Black Mass (Cathode Material of Lithium-Ion Batteries) using HR-ICP-OES
- High Resolution ICP-OES for Impurities in Nickel and Cobalt Sulfate
UVVis
TOC
- Cleaning Validation Procedures in Pharmaceutical Industry by TOC AnalysisEstablishing Extractables Testing from Plastic Packaging Materials and Systems for Pharmaceutical Use by TOC Analysis According to USP 661
- TOC Determination in Electroplating Bath Solutions by UV Digestion
- TOC/TNb Determination in Pulp and Paper Process Effluents
- TOC Determination in Phosphoric Acid by UV Digestion
- TOC Performance Test as per Japanese Pharmacopoeia
- TOC System Suitability Test – Redefined According to New USP Regulations
- Total Protein Determination in Pharmaceutical Products (Vaccines) by TNb Analysis
- Determination of Total Organic Carbon in Limestone and Gypsum Samples by Combustion Elemental Analysis coupled with NDIR Detection in Accordance with EN 13639
- Determination of Organic Impurities (TOC) In Raw Materials for Cathode Production in Lithium-Ion Batteries (LIB)
Övrigt
- From Ore to Metal – AAS/ICP-OES/ICP-MS
- Portable Refractometers for Industrial Applications
- Portable Refractometers for the Automotive Industry
- O2 sensors for Industrial & Technical Applications
- O2, pH and CO2 sensors for Pharma & Biotech Applications
- COD analysis with peCOD instrument in Paper and Pulp industry
- Determination of total formaldehyde with VAPODEST
