Advances in Research with SRL, Some of the Most Commonly Used Inorganic Salts in the Laboratory

In modern laboratories, the use of inorganic saltshas expanded significantly due to technological advances. These chemical compounds are widely used in fields such as chemistry, biology, medicine, physics, and geology.

The variety of inorganic salts offered by SRL (Sisco Research Laboratories), along with their commitment to innovation and excellence in customer service, continues to drive advances in scientific and technological research across Europe.

You can find the best competitive prices in our wide range of commonly used inorganic salts at SRL's laboratory, with certifications (ISO, FDA, GMP, and CE)that confirm their quality. The various scientific and technological applications that some of the inorganic salts we currently have in stockperform are:

1. Sodium chloride (NaCl):commonly used to prepare isotonic saline solutions and as a buffer in various procedures. Additionally, NaCl is essential in protein precipitation and DNA extraction.
2. Magnesium sulphate (MgSO₄):employed in the preparation of buffer solutions and in the separation of DNA and RNA in molecular biology techniques.
3. Ammonium sulphate ((NH₄)2SO₄):used in the selective precipitation of certain metallic ions and as a fertiliser in agriculture due to its high nitrogen and sulphur content.
4. Calcium chloride (CaCl₂):used as a desiccant and in the preparation of buffered solutions.

Trends in inorganic salts in research may vary depending on various factors, such as technological advances, industrial and scientific needs, and emerging research areas. Some inorganic salts that are often trending in research include the perovskite(CaTiO₃), a material with particular crystalline structures that exhibits a photovoltaic effect, namely the generation of electricity from incident light.

Perovskite has proven to be a promising material to enhance the energy efficiency of solar cells. Its excellent optical properties and low cost make it suitable for use in the manufacture of next-generation solar panels. This breakthrough could represent an economical alternative to conventional silicon solar cells.

This innovative technology promises to drive the development and adoption of more efficientand cost-effectivesolar energy in the near future. For any enquiries, please contact our CymitQuimica team, ready to provide you with more information about what you need.