Stable isotopes are atoms of the same element with a different number of neutrons, resulting in a different atomic mass. They are used extensively in scientific and medical research, including drug development, environmental studies, and isotope labeling. If you're looking for a reliable source of stable isotopes, Clearsynth is one of the best manufacturers in the market. In this article, we'll explore what makes Clearsynth stand out from other stable isotopes manufacturers.
Clearsynth prides itself on delivering stable isotopes of the highest quality and purity. We use state-of-the-art equipment and processes to ensure that our products meet the highest standards. All of our stable isotopes undergo rigorous testing to ensure that they meet or exceed the specifications of each order. Our quality control processes are designed to ensure that each stable isotope that leaves our facility meets the highest purity standards.
Clearsynth offers a wide range of stable isotopes for various applications. We have an extensive catalog of over 15,000 stable isotopes, including deuterated compounds, labeled compounds, and other isotopic compounds. Our team of experts can also work with you to create custom solutions that meet your specific needs.
Clearsynth's stable isotopes are priced competitively without compromising on quality. Our cost-effective solutions are designed to provide value to our customers without sacrificing quality.
At Clearsynth, we're committed to providing exceptional customer support. Our team of experts is always available to answer your questions and provide support throughout the ordering process. We're dedicated to ensuring that our customers receive the best service and solutions for their needs.
Pharmaceutical Industry: Stable isotopes are used in drug
development and testing. Isotope labeling is used to track the metabolic fate of
drugs in the body and determine their safety and efficacy.
Environmental Science: Stable isotopes are used to study the
biogeochemical cycling of elements in the environment. Isotope analysis can help
determine the source and fate of pollutants, and trace the movement of nutrients
through ecosystems.
Food Science: Stable isotopes are used to determine the
authenticity and origin of food products. Isotope analysis can help detect food
fraud, trace the geographical origin of food, and determine the feeding regime
of livestock.
Forensic Science: Stable isotopes are used in forensic
investigations to determine the origin of materials such as drugs, explosives,
and firearms. Isotope analysis can help identify the source of materials used in
criminal activities and link suspects to crime scenes.
Stable isotopes are used to study metabolic processes in the body by labeling
molecules with isotopes and tracing their movement through metabolic pathways.
This technique is known as stable isotope tracer analysis. Stable isotope
tracers can be introduced into the body through food or drink, or they can be
administered as part of a metabolic study.
For example, stable isotopes can be used to study glucose metabolism. In this
case, glucose molecules are labeled with stable isotopes such as carbon-13 or
deuterium. The labeled glucose is then administered to the subject, and the
movement of the labeled carbon or deuterium through metabolic pathways can be
tracked using mass spectrometry. This technique can help researchers determine
how glucose is metabolized in the body and how metabolic processes are affected
by diseases such as diabetes.
Stable isotopes are also used in pharmacokinetic studies to determine the fate of drugs in the body. This is done by labeling drugs with stable isotopes and tracking their movement through the body using mass spectrometry. The pharmacokinetics of drugs can be studied by analyzing the concentration of labeled drugs in the blood, urine, or other bodily fluids over time.
For example, stable isotopes can be used to study the pharmacokinetics of a drug in a clinical trial. The drug can be labeled with a stable isotope such as carbon-13 or deuterium, and the labeled drug can then be administered to subjects. Blood samples can be taken at various time points, and the concentration of labeled drug in the blood can be measured using mass spectrometry. This technique can help researchers determine the absorption, distribution, metabolism, and elimination of drugs in the body.
Compound Name | CAS Number | Molecular Weight | Molecular Formula |
---|---|---|---|
2,2,3,3-Tetradeutero-1-propanol | 34590-94-8 | 75.18 g/mol | C3D8O |
2,2,4,4,6,6-D6-Benzenehexol | 69533-61-7 | 120.15 g/mol | C6D6O6 |
4,4,5,5-D4-Dihydroxy-2-(1-13C) | 88889-14-9 | 159.12 g/mol | C7H8D4O4 |
2H-Labeled Dimethyl Sulfoxide | 2116-80-1 | 84.18 g/mol | C2D6OS |
D3-Labeled Methanol | 10326-41-7 | 36.07 g/mol | CH3OD |
2,2,3,3-D4-Butanediol | 156163-59-7 | 90.14 g/mol | C4H10D4O2 |
D5-Labeled Toluene | 2037-26-5 | 95.19 g/mol | C7H5D5 |
2,3,3,4-Tetradeutero-2H-pyran | 102931-52-4 | 86.14 g/mol | C5D4H6O |
D3-Labeled Acetonitrile | 2206-26-0 | 49.09 g/mol | CD3CN |
2,2-Dideuteroethanol | 126682-81-2 | 63.13 g/mol | C2D6O |
Clearsynth is one of the best stable isotopes manufacturers in the market. We offer high-quality and pure stable isotopes, a wide range of products, competitive pricing, and expert customer support. Our commitment to quality and customer satisfaction has made us a trusted source for stable isotopes in the scientific and medical communities. If you're in need of stable isotopes, trust Clearsynth to provide the solutions you need