Deuterium Hydride (CAS 13983-20-5): Properties and Applications
Explore the essential characteristics and diverse uses of Deuterium Hydride in scientific research and industry.
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Deuterium Hydride
Deuterium Hydride (DH), identified by CAS number 13983-20-5, is a crucial compound extensively utilized as a stable isotope in various scientific disciplines. Its unique isotopic composition makes it invaluable for tracing and analytical studies.
- Understanding Deuterium Hydride properties is key for researchers working with stable isotopes.
- The versatile CAS 13983-20-5 applications span across material science and chemical synthesis.
- Leveraging deuterated materials uses, DH aids in advanced research and development.
- As a component in synthetic reagents, it plays a role in creating complex molecules.
Key Advantages
Isotopic Purity
High purity levels of Deuterium Hydride ensure accurate results in sensitive applications, supporting rigorous scientific investigation and reliable stable isotopes for research.
Versatile Applications
Its use in areas like alternative energy and as a building block for deuterated materials highlights the broad spectrum of deuterated materials uses.
Research Utility
As a critical element in synthetic reagents, DH facilitates the development of novel chemical pathways and compounds in advanced laboratories.
Key Applications
Chemical Synthesis
Deuterium Hydride serves as a vital intermediate in complex chemical synthesis, enabling the creation of specialized molecules with desired isotopic labels, supporting various synthetic reagents chemical suppliers.
Materials Science
The unique properties of deuterated materials are leveraged in advanced material science research, where DH contributes to the development of novel substances with enhanced characteristics.
Alternative Energy Research
As an isotope of hydrogen, DH is explored in alternative energy research, particularly in studies related to hydrogen storage and fuel technologies, showcasing its relevance to hydrogen-d1 physical properties.
Analytical Chemistry
Its role as a stable isotope makes it instrumental in analytical chemistry for isotopic tracing and quantitative analysis, aligning with the needs of compressed and liquefied gases suppliers.