| CAS No.: | 3682-14-2 |
|---|---|
| Formula: | C8h7n3o2 |
| EINECS: | No |
| Classification: | Biochemical Reagents |
| Grade: | AR |
| Specific Usage: | For Biological Purpose, For Tissue Medium Purpose, Technical Grade, Pratical Use, Pro Analysis, Chemiluminescence Reagent |
| Samples: |
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| Customization: |
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Audited Supplier | Abbreviation | Isoluminol | Molecular formula | C8H7N3O2 |
| CAS | 3682-14-2 | Molecular weight | 177.20 |
| Appearance | hite powder | Density | 1.433g/cm3 |
| Melting point | 300ºC | Boiling point | 633ºCat760mmHg |
| Flash point | 336.7ºC | Purity | ≥99% |
Isoluminol, as a chemiluminescent reagent, is commonly used in in vitro diagnostic kits. Chemiluminescence is a diagnostic method that uses specific reactions between antigens and antibodies to determine the concentration of disease markers in the body, thereby determining the body's condition. It is widely used in infectious diseases, heart diseases, tumors, pregnancy detection, and other fields. Chemiluminescence detection has certain advantages in cost control, reaction sensitivity, testing accuracy, and testing speed.
The luminescence principle of iruminol is oxidation reaction luminescence: when iruminol is mixed with an appropriate oxidant, it will emit bright blue fluorescence. In clinical diagnosis, the antigen antibody is directly labeled with ibuprofen, and a chemiluminescence reaction is triggered through immune response for detection. The concentration of disease markers is determined by the changes in luminescence intensity and peak value, thereby reflecting the physical condition and providing reference for further treatment plans.
Chemiluminescence reagents, commonly used in chemiluminescence immunoassay, such as metal cations and blood detection
Chemiluminescence reagent is a commonly used reagent in chemical analysis, which detects target substances in samples through the luminescence phenomenon generated by chemical reactions. The principle is to use the energy released in chemical reactions to excite luminescent substances, causing them to emit visible light. This luminescence phenomenon is caused by the release of energy when the luminescent substance is in a high-energy excited state and undergoes non radiative transitions back to a low-energy ground state. Chemiluminescence reagents typically consist of two or more components, one of which is a luminescent substance and the other is a trigger, which react under appropriate conditions to produce luminescence. Chemiluminescence reagents have a wide range of applications, including criminal investigation, environmental monitoring, biomedical research, and more.
Chemiluminescence reagents are divided into direct chemiluminescence reagents and indirect chemiluminescence reagents. Direct chemiluminescence reagents include 8 series of azidyl esters, including azidyl ester DMAE-NHS, azidyl ester NSP-DMAE-NHS, azidyl salt NSP-SA, azidylhydrazide NSP-SA-ADH, isoluminol, etc. Indirect chemiluminescence reagents are divided into luminol and luminol monosodium salts.
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