Product Name:5-Chloro-2,1,3-benzothiadiazole

IUPAC Name:5-chloro-2,1,3-benzothiadiazole

CAS:2207-32-1
Molecular Formula:C6H3ClN2S
Purity:95%+
Catalog Number:CM160078
Molecular Weight:170.61

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CM160078-100g in stock ƩşǠ

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Product Details

CAS NO:2207-32-1
Molecular Formula:C6H3ClN2S
Melting Point:-
Smiles Code:ClC1=CC2=NSN=C2C=C1
Density:
Catalog Number:CM160078
Molecular Weight:170.61
Boiling Point:248.1°C at 760 mmHg
MDL No:MFCD00174269
Storage:Store at 2-8°C.

Category Infos

Benzothiadiazoles
The two N atoms in Benzothiadiazole could possibly form intermolecular hydrogen bonding, leading to a more planar backbone. Benzothiadiazole is a strong electron-accepting molecular fragment. By fusing it with thiazole donor-acceptor dyes, near-infrared fluorescence was created. The benzothiadiazole ring is a useful n-type building block for designing electron-transport materials for organic and polymer light-emitting diodes (LEDs). Arene- and heteroarene-fused thiadiazoles have also found use in the design of low-band-gap materials for the construction of organic field-effect transmitters (OFETs), as stable organic radicals, and as one or two photon-absorbing materials for the design of nonlinear near-infrared (NIR) dyes. Benzothiadiazoles acting as the electron-accepting cores have been incorporated into dendrimer-type light-harvesting materials.

Column Infos

Benzenes
Benzene is an important organic compound with the chemical formula C6H6, and its molecule consists of a ring of 6 carbon atoms, each with 1 hydrogen atom. Benzene is a sweet, flammable, colorless and transparent liquid with carcinogenic toxicity at room temperature, and has a strong aromatic odor. It is insoluble in water, easily soluble in organic solvents, and can also be used as an organic solvent itself. The ring system of benzene is called benzene ring, and the structure after removing one hydrogen atom from the benzene ring is called phenyl. Benzene is one of the most important basic organic chemical raw materials. Many important chemical intermediates can be derived from benzene through substitution reaction, addition reaction and benzene ring cleavage reaction.