Bismuth tribromophenate, represented by the formula BiBr3(C6H5O), is a chemical compound with a molar mass of 464.56 g/mol. It appears as a white to pale yellow powder with a density of 5.7 g/cm³ and a melting point of 215-217°C. Despite being insoluble in water, it dissolves in organic solvents like ethanol, acetone, and chloroform. Its uses include applications as an antiseptic, antibacterial agent, and raw material, as well as a starting material in organic synthesis.
Bismuth Tribromophenate: A Chemical Compound with Versatile Applications
In the realm of chemistry, bismuth tribromophenate stands as a substance of remarkable significance. Its unique characteristics and diverse applications have made it a valuable asset in various fields. Let’s delve into the captivating world of bismuth tribromophenate, exploring its identity, properties, and uses.
What is Bismuth Tribromophenate?
Bismuth tribromophenate is a chemical compound that takes the form of a white to pale yellow powder. Its molecular formula, BiBr3(C6H5O), represents the unique combination of bismuth, bromine, and phenol groups. This intriguing compound boasts a molar mass of approximately 464.56 g/mol, making it a relatively heavy substance.
Its Significance in Chemistry
Bismuth tribromophenate’s significance stems from its distinct chemical properties. Its structure, characterized by the presence of heavy metal ions and organic groups, grants it exceptional stability. This attribute makes it a valuable starting material in organic synthesis, where it can undergo various reactions to yield complex and functionalized molecules.
Bismuth Tribromophenate: Chemical Formula and Molar Mass
In the world of chemical compounds, bismuth tribromophenate stands out with its unique molecular structure and diverse applications. Let’s delve deeper into its chemical formula and molar mass, the foundation of understanding this intriguing compound.
Molecular Formula: A Structural Blueprint
The molecular formula of bismuth tribromophenate, BiBr3(C6H5O), provides a valuable insight into its atomic and molecular makeup. Bismuth (Bi), bromine (Br), carbon (C), hydrogen (H), and oxygen (O) come together in a precise arrangement, creating this distinct chemical entity.
Molar Mass: Measuring the Molecular Weight
The molar mass of a compound represents the total mass of one mole of that compound. For bismuth tribromophenate, its molar mass is 464.56 g/mol. This means that one mole of bismuth tribromophenate weighs approximately 464.56 grams.
Significance of Molar Mass
The molar mass serves as a critical parameter in various chemical calculations and applications. It enables scientists to:
- Determine the number of atoms or molecules in a known mass of the compound.
- Convert between mass and moles, which is essential for stoichiometric calculations.
- Predict the physical and chemical properties of the compound based on its molecular weight.
By understanding the chemical formula and molar mass of bismuth tribromophenate, we lay the groundwork for exploring its physical properties, solubility, and diverse applications in the world of chemistry. Stay tuned for our next installment, where we will shed light on these captivating aspects of this remarkable compound.
Unveiling the Physical Properties of Bismuth Tribromophenate
In the realm of chemistry, where intricate compounds hold secrets, bismuth tribromophenate stands out as a fascinating subject. Its physical properties paint a vivid picture of its unique nature.
A Solid with a Delicate Hue:
Bismuth tribromophenate reveals itself as a white to pale yellow powder, embodying an ethereal lightness. This solid form suggests its crystalline structure, allowing individual molecules to align in an organized manner.
Density: A Measure of Substance:
With a density of 5.7 g/cm³, this compound resides in an intermediate weight range. It’s neither as light as air nor as heavy as a stone, hinting at its compact molecular structure.
Melting Away: A Transformation Under Heat:
As the temperature rises, bismuth tribromophenate undergoes a transition. At 215-217°C, it melts, transforming from a solid into a liquid state. This transition reveals the compound’s temperature sensitivity.
A Water-Wary Compound:
When immersed in water, bismuth tribromophenate remains resolute, insoluble and undisturbed. Its resistance to dissolution in water indicates its hydrophobic nature, preferring the embrace of organic solvents.
Unlocking the Secrets: Bismuth Tribromophenate and Its Affinity for Organic Solvents
In the realm of chemical compounds, bismuth tribromophenate stands out as a unique substance with remarkable properties. One of its most intriguing characteristics is its solubility in organic solvents, which opens up a world of possibilities for its applications.
Bismuth tribromophenate is a white to pale yellow powder that possesses a high density and melts at a temperature of 215-217°C. Despite being insoluble in water, it exhibits a strong affinity for organic solvents, making it a valuable reagent in various chemical reactions and applications.
Among the organic solvents that bismuth tribromophenate readily dissolves in are ethanol, acetone, and chloroform. These solvents share a common characteristic: their ability to form nonpolar interactions with the molecule. Bismuth tribromophenate’s structure allows it to interact favorably with these solvents, leading to its high solubility.
The solubility of bismuth tribromophenate in organic solvents is not only a fundamental property but also plays a crucial role in its practical applications. By dissolving in these solvents, bismuth tribromophenate becomes more versatile and accessible for use in various industries.
Uses and Applications of Bismuth Tribromophenate
Beyond its chemical structure and properties, bismuth tribromophenate boasts a remarkable range of practical applications, making it an indispensable compound in various fields.
- Antiseptic and Antibacterial Agent:
Bismuth tribromophenate shines as an effective antiseptic and antibacterial agent, combating the growth and spread of microorganisms. Its ability to inhibit bacterial growth has led to its widespread use in topical ointments and dressings, providing relief from skin infections, burns, and wounds.
- Raw Material in Pharmaceuticals:
Bismuth tribromophenate serves as a crucial raw material in the production of numerous pharmaceutical formulations. It is employed as a precursor in the synthesis of various bismuth-based drugs, which are renowned for their therapeutic properties in treating ailments such as syphilis, peptic ulcers, and diarrhea.
- Starting Material in Organic Synthesis:
In the realm of organic chemistry, bismuth tribromophenate proves its versatility as a starting material for an array of organic reactions. Its unique chemical reactivity allows it to undergo transformations that yield complex organic compounds with diverse functionalities, opening up new avenues for research and development in the chemical industry.
Emily Grossman is a dedicated science communicator, known for her expertise in making complex scientific topics accessible to all audiences. With a background in science and a passion for education, Emily holds a Bachelor’s degree in Biology from the University of Manchester and a Master’s degree in Science Communication from Imperial College London. She has contributed to various media outlets, including BBC, The Guardian, and New Scientist, and is a regular speaker at science festivals and events. Emily’s mission is to inspire curiosity and promote scientific literacy, believing that understanding the world around us is crucial for informed decision-making and progress.
