Sulphacetamide

Sulphadiazine

A sulfonamide antibacterial drug used in combination with pyrimethamine to treat and prevent toxoplasmosis, a parasitic infection. It's also used to treat urinary tract infections and certain types of bacterial infections.

Sulphadoxine

Sulphadoxine is an anti-malarial medication that belongs to the sulfonamide class of antibiotics. It is often used in combination with pyrimethamine (an antifolate medication) to treat and prevent malaria, particularly in regions where the disease is resistant to other treatments. Sulphadoxine works by inhibiting the growth of parasites that cause malaria, gradually leading to their death and subsequent elimination from the body. It is typically used to treat uncomplicated malaria and is often given as a single dose.

Sulphamate

Sulphamate refers to a soap-like compound that is made by reacting sulphamic acid with an alcohol.

Sulphamic

Sulphamic means relating to or containing sulfuric acid, or to the sulfate ion. It can also refer to the chemical compound known as sulfamic acid, which is a is a crystalline solid that has the chemical formula H3NSO3. It's often used as a disinfectant or in the manufacture of other chemicals.

Sulphanilamide

Sulphanilamide is a chemical compound that serves as a precursor to sulfonamides, a class of antibacterial compounds that have been used as antibiotics. It is a bright red dye.<br><br>The sulphanilamide molecule contains both nitrogen and sulfur atoms, making it a derivative of aniline, a colorless liquid used in the production of many dyestuffs. <br><br>The structural formula is:<br><br>C6H5N CCH N C6H4 - SO2 - NH2<br><br>Sulphanilamide was initially patented as a red dye in 1904 and was used as a matrialsaid fungicide.

Sulphanilic

Sulphanilic refers to a compound or anything that contains sulphanilic acid or a sulphanilic acid group. Sulphanilic acid is a colorless, crystalline compound with the chemical formula C6H8N2O2S. It is often used as a reagent in organic synthesis and as a precursor to other synthetic compounds.<br><br>In a broader sense, the term "sulphanilic" can also refer to anything related to or derived from sulphanilic acid, such as sulphanilic salts, esters, or derivatives.<br><br>It's worth noting that the term "sulphanilic" is not commonly used in everyday language, and it's more frequently encountered in technical or scientific contexts.

Sulphantimonate

The word "sulphantimonate" refers to a type of organosulfur compound, specifically a derivative of antimony and sulfur. It is a compound that contains both sulfur and antimony ions, with a sulfur atom bonded to an antimony atom (Sb2(SO4)2−).

Sulpharsenic

Sulpharsenic is a rare term that refers to a compound that contains sulfur and arsenic.<br><br>Sulpharsenic is a synonym for "arsenosic acid" or "arsenic trisulfide". It is a yellow or dark-red solid that is highly toxic.

Sulphasalazine

Sulphasalazine is a medication used to treat rheumatoid arthritis, to induce remission in ulcerative colitis, and occasionally as an adjunct in Crohn's disease. It is believed to have anti-inflammatory properties and is thought to work by inhibiting the production of prostaglandins, which are hormone-like substances in the body that cause inflammation.

Sulphatase

Sulphatase refers to a group of enzymes that catalyze the hydrolysis of sulfate esters, releasing sulfate ions (SO4^2-) and alcohols. These enzymes are involved in various biological processes, including the metabolism of sulfate-containing compounds and the detoxification of sulfur-containing pollutants.<br><br>There are several types of sulphatases, including:<br><br>1. Arylsulfatase: involved in the breakdown of aromatic sulfates, which are compounds that contain an aryl group (a compound with a benzene ring) bonded to a sulfate group.<br>2. Hydrophobinsulfatase: involved in the breakdown of sulfate esters in lipids and proteins.<br>3. Steriosulfatase: involved in the breakdown of steroid sulfates, which are compounds that contain a steroid nucleus bonded to a sulfate group.<br><br>Sulphatases are found in many organisms, including bacteria, plants, and animals, and play important roles in various biological processes, including:<br><br>1. Sulfur metabolism: sulfatases help to convert sulfate ions into other sulfur-containing compounds, which can be used by the organism for various purposes.<br>2. Detoxification: sulfatases can break down sulfate-containing pollutants, such as pesticides and industrial chemicals, which can be toxic to living organisms.<br>3. Inflammation: sulfatases can break down sulfated compounds that are involved in inflammation and immune responses.<br><br>Dysfunction of sulfatases has been implicated in various disorders, including:<br><br>1. Sulfate toxicity: deficiency in sulfatases can lead to an accumulation of sulfate ions, which can be toxic to cells.<br>2. Neurological disorders: abnormalities in sulfatase activity have been linked to neurological disorders, such as Parkinson's disease and multiple sclerosis.<br><br>Overall, sulfatases play a crucial role in maintaining the balance of sulfur-containing compounds in living organisms and are involved in various biological processes.

Sulphate

Sulphate is a salt of sulfuric acid, containing the sulfate ion (SO42-). Sulfates are formed by the reaction of sulfuric acid with a metal or an organic base and can usually be found as colorless or white crystalline solids. They are widely used in various industries such as construction materials, fertilizers, detergents, and personal care products.

Sulphated

Derivatives or compounds formed by the reaction of a substance with sulphuric acid or derived from sulphuric acid; also, any salt of a sulphuric acid.

Sulphates

Sulphates are a class of salts or esters formed by the action of sulfuric acid on metals or their oxides, hydroxides, or carbonates. Sulfates are often hydrated finite crystals, but they can also be anhydrates.<br><br>Common properties of sulphates include:<br><br> High melting points, often requiring high temperatures to melt and become liquid<br> Solubility in water, which creates electrolytes when dissolved<br> High reactivity with many other compounds, including acids and bases<br><br>Examples of sulphates include:<br><br> Sodium sulfate (Na2SO4)<br> Magnesium sulfate (MgSO4)<br> Copper sulfate (CuSO4)<br><br>Sulphates have various uses in industry, such as:<br><br> Cleaning and bleaching<br> In the production of detergents and softeners<br> As a source of sulphur, which is used in the manufacture of fertilizers and pesticides<br> As a reagent in chemical reactions, such as the production of pigments and dyes

Sulphation

Sulphation is a chemical reaction in which a metal or its oxide reacts with sulfuric acid (H2SO4) to form the metal sulfate. This process can occur naturally, such as in the rusting of iron in the presence of sulfuric acid, or artificially, in the production of certain pigments and chemicals.<br><br>In everyday language, sulphation can also refer to the process of removing sulfur compounds, such as hydrogen sulfide or sulfurons acid, from a substance, such as an oil or a gas stream.<br><br>In some contexts, sulphation can also refer to the accumulation of sulfate ions on a surface, such as a metal surface, which can lead to various problems, including corrosion and scaling.<br><br>It is also used in the medical field as a treatment for various skin conditions where in keratin like structure is affected like fungal infections of the nails and skin like onychomycosis.

Sulphaurate

Sulfuric relates to or containing sulfur, a yellow nonmetallic element with the atomic symbol S, atomic number 16, and publication of H2SO4.<br><br>Sulphurate refers to an ester of sulfuric acid, containing the sulfate group (SO4) bonded to an organic complement.