51694-20-3

Upstream product

• 7677-24-9 trimethylsilyl cyanide 
• 16419-60-6 2-Methylphenylboronic acid 
• 2179-96-6 triselenium dicyanide 
• 3425-46-5 potassium selenocyanate 
• 95-53-4 o-toluidine 
• 17333-74-3 2-methylbenzene diazonium 

Downstream Products

• 94800-50-7 phenyl o-tolyl selenide 
• 1657-99-4 (2,4-dinitro-phenyl)-o-tolyl selenide 
• 1528-88-7 2-methylphenyl methyl selenide 
• 18619-36-8 o-tolylselanyl-acetic acid 
• 69447-36-5 bis(2-methylphenyl) diselenide 

Relevant academic research and scientific papers

Metal-Free Synthesis of Aryl Selenocyanates and Selenaheterocycles with Elemental Selenium

This work reports a green method for the synthesis of aryl selenocyanates via a three-component reaction of arylboronic acids, Se powder, and trimethylsilyl cyanide (TMSCN) under metal-free and additive-free conditions. Remarkably, TMSCN acts as not only the substrate, but also the catalyst. Various selenaheterocycles can be also accessed with a catalytic amount of TMSCN.

Synthesis method of aryl selenocyanate compounds

The invention relates to the field of synthesis of chemical products, in particular to a synthesis method of aryl selenocyanate compounds. The method starts from arylboronic acid which is easy to obtain, KSeCN which is the cheapest is used as a selenocyanate source, environment-friendly pollution-free current is adopted as a reaction driver, and under conditions of air and a room temperature, arylselenocyanates are efficiently synthesized. Compared with a conventional aryl selenocyanate synthesis method, the method has the obvious advantages that reaction raw materials (including the arylboronic acid) are cheap and easy to obtain, the current causes the lowest pollution to the environment, multiple kinds of functional groups of aromatic rings have good tolerance, yields are high, and thelike. The method can be applied to synthesis of a wide variety of fields of medicines, materials, natural products and the like of the industrial circles and the academic circles.

An electrochemical method for deborylative seleno/thiocyanation of arylboronic acids under catalyst- And oxidant-free conditions

An electrochemical deborylative seleno/thiocyanation of arylboronic acids has been well established to synthesize the corresponding aryl seleno/thiocyanates with good functional group tolerance under ambient conditions. A gram-scale reaction has been performed to highlight the advantages of the protocol. Preliminary mechanistic studies indicate that the oxidation of the seleno/thiocyanate anion occurs prior to that of the arylboronic acid substrate in galvanostatic mode, and that free radicals are involved in the process.

Metal-Free ipso -Selenocyanation of Arylboronic Acids Using Malononitrile and Selenium Dioxide

The first ipso -selenocyanation of arylboronic acids is achieved using selenium dioxide and malononitrile under mild conditions. The reaction is successful even without metal or base in DMSO. The major advantages of this new method are an easy set-up, excellent yields, and the use of odorless and inexpensive selenium reagents. Basic conditions subsequently afford new access to diaryldiselenides in good yields without isolating the organoselenocyanate intermediates.

Synthesis of Monofluoromethyl Selenoethers of Aryl and Alkyl from Organoselenocyanate via One-Pot Reaction

The first practical and feasible approach for the monofluoromethylselenolation of aryl and alkyl halides via one-pot multistep synthesis using KSeCN and ICFH2 is described. Good yields and broad functional group compatibility were obtained. The successful preparation of monofluoromethylselenolated drug-like compounds good practicability of this method. This protocol offered a number of new monofluoromethyl selenoethers, which would accelerate the use of such compounds in the areas of life science. (Figure presented.).

Synthesis of novel 5-aryl-1H-tetrazoles

In this study phenylselenocyanate and some of its derivatives (o-Cl, p-Cl, p-Br, o-NO2, p-NO2, o-CH3, p-CH3, o-COOH, p-COOH, p-OCH3 substituted) were synthesized (3a-3j). The synthesized compounds were converted to 5-aryl-1H-tetrazole (4a-4j), by Et 3N · HCl-NaN3 in toluene, which are a new series of phenylselanyl-1H-tetrazoles. The structure of all the presently synthesized compounds were confirmed using spectroscopic methods (FTIR, 1H NMR, MS).