P-fluorothiophenol is an important intermediate of medicine, pesticide and polymer. It can also be used in the detection of chemiluminescent agents and the preparation of nonlinear optical materials.

3-Fluorophenol

MSDS

CAS:372-20-3

Molecular Formula:C6H5FO

Alias

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Phenol,3-Fluoro; 3-Fluor-Phenol; Phenol, 3-Fluoro-; 3-Fluoro-Phenol; 3-Fluorofenol; Phenol,m-Fluoro; m-Fluorophenol; 3-Fluorphenol; Phenol, M-Fluoro-; Fluorophenolcolorlessliq; 3-Fluorophenol M-Fluorophenol; 1-Bromo-4-Fluorobezene

Brief Introduction

It is used as an intermediate of medicine, pesticide and dye

5-Ethyl-5-[[Methoxy(Methyl)Phosphoryl]Oxymethyl]-2-Methyl-1,3,2λ<Sup>5</Sup>-Dioxaphosphinane 2-Oxide

MSDS

CAS:41203-81-0

Molecular Formula:C9H20O6P2

Alias

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(5-Ethyl-2-Methyl-1,3,2-Dioxaphosphorinan-5-Yl)Methyl Dimethyl Phosphonate P-Oxide; Methylphosphonic Acid (5-Ethyl-2-Methyl-2-Oxido-1,3,2-Dioxaphosphorinan-5-Yl)Methyl Methyl Ester

Brief Introduction

This product can be used as dye raw material.

Hippuric Acid

MSDS

CAS:495-69-2

Molecular Formula:C9H9NO3

Alias

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2-Benzamidoacetic Acid; Benzaminoacetic Acid; Benzoylaminoacetic Acid; Benzoylglycine; (Benzoylamino)Acetic Acid

Brief Introduction

This product is a standard sample for the determination of benzoylamino by organic microanalysis. Biochemical research. Organic synthesis. Medically, the product is an intermediate of medicine and dyes.

Chloroquine Diphosphate

MSDS

CAS:50-63-5

Molecular Formula:C18H32ClN3O8P2

Alias

More Information

Chloroquine Bis(Phosphate); 7-Chlor-4-(4-(Diaethylamino)-1-Methylbutylamino)-Chinolindiphosphat; 7-Chloro-4-((4’-Diethylamino-1-Methylbutyl)Amino)Quinolinediphosphate; 7-Chloro-4-(4-Diethylamino-1-Methyl-Butylamino)-Quinolindiphosphate; Alermine; Aralendiphosphate; Chingaminphosphate; Chloroquine Diphosphate Salt

Brief Introduction

This product is an antimalarial compound Chloroquine Phosphate is the phosphate salt of chloroquine, a quinoline compound with antimalarial and anti-inflammatory properties. Chloroquine is the most widely used drug against malaria, except for those cases caused by chloroquine resistant Plasmodium falciparum. Although the mechanism of action is not fully understood, chloroquine is shown to inhibit the parasitic enzyme heme polymerase that converts the toxic heme into non-toxic hemazoin, thereby resulting in the accumulation of toxic heme within the parasite. Chloroquine may also interfere with the biosynthesis of nucleic acids.

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