The Significance of 13C Labeling in Chemical Analysis: Featuring Potassium Cyanide-13C
In the realm of analytical chemistry, precision and specificity are paramount. Stable isotope labeling, particularly with Carbon-13 (13C), offers a powerful strategy to enhance analytical capabilities, enabling more sensitive detection, accurate quantification, and definitive structural elucidation. Potassium Cyanide-13C exemplifies the utility of such labeling, providing a valuable tool for various analytical applications. NINGBO INNO PHARMCHEM CO.,LTD., a leading supplier in China, provides this essential labeled compound.
The significance of 13C labeling in chemical analysis stems from the distinct mass difference between 12C and 13C. This difference is readily detectable using techniques such as Mass Spectrometry (MS). When a molecule is labeled with 13C, its mass spectrum shifts predictably, allowing for its unambiguous identification and quantification even in the presence of unlabeled compounds or complex matrices. This is particularly useful when using Potassium Cyanide-13C as an internal standard in quantitative analyses, or to trace the metabolic fate of molecules containing the cyanide moiety.
When considering the purchase of Potassium Cyanide-13C, the assurance of high isotopic enrichment is crucial for effective analytical applications. NINGBO INNO PHARMCHEM CO.,LTD. ensures that its products are manufactured to exacting standards, making them ideal for sensitive analytical workflows. The price of Potassium Cyanide-13C is a testament to the advanced isotope enrichment technologies, but its contribution to analytical accuracy and specificity makes it a worthwhile investment for research laboratories and quality control departments.
Furthermore, 13C labeling also aids in Nuclear Magnetic Resonance (NMR) spectroscopy. The direct detection of the 13C nucleus provides valuable information about the carbon backbone of molecules, including chemical shifts and coupling patterns, which are essential for structural determination. By using Potassium Cyanide-13C, analysts can precisely locate the labeled carbon within a molecule, confirming its structure and purity. As a trusted manufacturer, NINGBO INNO PHARMCHEM CO.,LTD. supports these analytical endeavors by providing reliable, labeled chemical intermediates.
The significance of 13C labeling in chemical analysis stems from the distinct mass difference between 12C and 13C. This difference is readily detectable using techniques such as Mass Spectrometry (MS). When a molecule is labeled with 13C, its mass spectrum shifts predictably, allowing for its unambiguous identification and quantification even in the presence of unlabeled compounds or complex matrices. This is particularly useful when using Potassium Cyanide-13C as an internal standard in quantitative analyses, or to trace the metabolic fate of molecules containing the cyanide moiety.
When considering the purchase of Potassium Cyanide-13C, the assurance of high isotopic enrichment is crucial for effective analytical applications. NINGBO INNO PHARMCHEM CO.,LTD. ensures that its products are manufactured to exacting standards, making them ideal for sensitive analytical workflows. The price of Potassium Cyanide-13C is a testament to the advanced isotope enrichment technologies, but its contribution to analytical accuracy and specificity makes it a worthwhile investment for research laboratories and quality control departments.
Furthermore, 13C labeling also aids in Nuclear Magnetic Resonance (NMR) spectroscopy. The direct detection of the 13C nucleus provides valuable information about the carbon backbone of molecules, including chemical shifts and coupling patterns, which are essential for structural determination. By using Potassium Cyanide-13C, analysts can precisely locate the labeled carbon within a molecule, confirming its structure and purity. As a trusted manufacturer, NINGBO INNO PHARMCHEM CO.,LTD. supports these analytical endeavors by providing reliable, labeled chemical intermediates.
Perspectives & Insights
Alpha Spark Labs
“When a molecule is labeled with 13C, its mass spectrum shifts predictably, allowing for its unambiguous identification and quantification even in the presence of unlabeled compounds or complex matrices.”
Future Pioneer 88
“This is particularly useful when using Potassium Cyanide-13C as an internal standard in quantitative analyses, or to trace the metabolic fate of molecules containing the cyanide moiety.”
Core Explorer Pro
“When considering the purchase of Potassium Cyanide-13C, the assurance of high isotopic enrichment is crucial for effective analytical applications.”