Chemical test
In chemistry, a chemical test is a qualitative or quantitative procedure designed to prove the existence of, or to quantify, a chemical compound or chemical group with the aid of a specific reagent.
Purposes
Chemical testing might have a variety of purposes, such as:
- Determine if, or verify that, the requirements of a specification, regulation, or contract are met
- Decide if a new product development program is on track: Demonstrate proof of concept
- Demonstrate the utility of a proposed patent
- Determine the interactions of a sample with other known substances
- Determine the composition of a sample
- Provide standard data for other scientific, medical, and Quality assurance functions
- Validate suitability for end-use
- Provide a basis for Technical communication
- Provide a technical means of comparison of several options
- Provide evidence in legal proceedings
Biochemical tests
- Clinistrips quantitatively test for sugar in urine
- The Kastle-Meyer test tests for the presence of blood
- Salicylate testing is a category of drug testing that is focused on detecting salicylates such as acetylsalicylic acid for either biochemical or medical purposes.
- The Phadebas test tests for the presence of saliva for forensic purposes
- Iodine solution tests for starch
- The Van Slyke determination tests for specific amino acids
- The Zimmermann test for Ketosteroids
- Seliwanoff's test for differentiating between aldose and ketose sugars
- Test for lipids: add ethanol to sample, then shake; add water to the solution, and shake again. If fat is present, the product turns milky white.
- Sakaguchi test for the presence of arginine in protein
- Hopkins Cole reaction for the presence of tryptophan in proteins
- Nitroprusside reaction for the presence of free thiol groups of cysteine in proteins
- Sullivan reaction for the presence of cysteine and cystine in proteins
- Acree-Rosenheim reaction for the presence of tryptophan in proteins
- Pauly reaction for presence of tyrosine or histidine in proteins
- Heller's test for presence of albumin in urine
- Gmelin's test for the presence of bile pigments in urine
- Hay's test for the presence of bile pigments in urine
Reducing sugars
Main article: Reducing sugar
- Barfoed's test tests for reducing polysaccharides or disaccharides
- Benedict's reagent tests for reducing sugars or aldehydes
- Fehling's solution tests for reducing sugars or aldehydes, similar to Benedict's reagent
- Molisch's test for carbohydrates
- Nylander's test for reducing sugars
- Rapid furfural test to distinguish between glucose and fructose
Proteins and polypeptides
- The Bicinchoninic acid assay tests for proteins
- Biuret reagent tests for proteins and polypeptides
- Bradford protein assay measures protein quantitative
- The Phadebas Amylase Test determines alpha-amylase activity
Organic tests
- The Carbylamine reaction tests for primary amines
- The Griess test tests for organic nitrite compounds
- The Iodoform reaction tests for the presence of methyl ketones, or compounds which can be oxidized to methyl ketones
- The Schiff test detects aldehydes
- Tollens' reagent (Silver Mirror) tests for aldehydes
- The Zeisel determination tests for the presence of esters or ethers
- Lucas' reagent is used to determine mainly between primary, secondary and tertiary alcohols.
- The Bromine test is used to test for the presence of unsaturation and phenols.
Inorganic tests
- Barium chloride tests for sulfates
- The Beilstein test tests for halides qualitatively
- Borax bead test tests for certain metals
- The Carius halogen method measures halides quantitatively.[1]
- Chemical test for cyanide tests for the presence of cyanide, CN−
- Copper sulfate tests for presence of water
- Flame tests test for metals
- The Gilman test tests for the presence of a Grignard reagent
- The Kjeldahl method quantitatively determines the presence of nitrogen
- Nessler's reagent tests for the presence of ammonia
- Ninhydrin tests for ammonia or primary amines
- Phosphate test for phosphate
- The sodium fusion test tests for the presence of nitrogen, sulfur, and halides in a sample
- The Zerewitinoff determination tests for any acidic hydrogen
- The Oddy test for acid, aldehydes, and sulfides
- Gunzberg's test tests for the presence of hydrochloric acid
- Kelling's test tests for the presence of lactic acid
See also
References
- ↑ Niederl, J. B.; Baum, H.; McCoy, J. S.; Kuck, J. A. (1940). "Micro-Carius Halogen and Sulfur Determination". Industrial & Engineering Chemistry Analytical Edition. 12 (7): 428–431. doi:10.1021/ac50147a022. ISSN 0096-4484.
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