CN1772728A

CN1772728A - Catalytic synthesis of phenylhydroxylamine compound

Info

Publication number: CN1772728A
Application number: CN 200410094645
Authority: CN
Inventors: 陈金铸; 陆世维
Original assignee: Dalian Institute of Chemical Physics of CAS
Current assignee: Dalian Institute of Chemical Physics of CAS
Priority date: 2004-11-11
Filing date: 2004-11-11
Publication date: 2006-05-17
Anticipated expiration: 2024-11-11
Also published as: CN1331840C

Abstract

During the catalytic synthesis of phenylhydroxylamine compound, substituted nitrobenzene derivative as main material is reacted inside water or organic in the presence of reductant and selenium as catalyst. The substituting radical R in nitrobenzene derivative may be one or several kinds one electron donoring and/or electron accepting substituting radicals or hydrogen atom. The reductaant may be proton donoring reductant, and the catalyst has molar consumption in 0.1-20 % of substrate. The reacting substrate has molar ratio to the solvent of 1 to 1-100, and the solvent is one or several kinds polar or nonpolar solvent. The reaction time is 0.25-20 hr and the reaction temperature is 10-100 deg.c. The present invention has simple operation, easy-to-obtain material, less reaction steps and high yield.

Description

The method of the synthetic phenylhydroxylamine compounds of a kind of catalysis

Technical field

The present invention relates to the method for the synthetic phenylhydroxylamine compounds of a kind of catalysis, relate in particular to the method for synthetic phenylhydroxylamine compounds under a kind of selenium catalysis.

Technical background

Contain-heterogeneous ring compound of N-OH group or contain this group and can play the electronics transfer vector as substituent aromatic compound, promote the polyphenoloxidase-non-phenol type of laccase oxidation lignin type compound or deviate from residual lignin [document: Bourbonnais R in the paper making pulp, Paice MG, Freiermuth B.Appl.Environ.Microbil.1996,63 (12): 4627; Call H P.1994, WO94129510; Lai Z Y, Xu H, Wen X H.The 7 ^ThInternational conference ofbiotechnology in pulp and paper industry.Vol.A.Proceeding Canada, 1998, A117; Amann is International Symposium on Wood and Paper Chemistry M.9th, The Lignozym Process coming Closer to the Mill, 1997:F _4-1-F _4-4].Therefore, the synthetic utmost point of this compounds has using value.Phenylhydroxylamine be a kind of simple-N-OH group substituted aromatics, why it can be used as the auxiliary agent of the non-phenol type of biological laccase oxidation lignin, help removing the residual lignin in the paper pulp, may be because its hydroxyl can form free radical under the effect of laccase, this free radical can with phenyl ring generation hyperconjugation, have certain stability, therefore, it can assist oxygen molecule oxidation lignin.At present the method for conventional synthetic phenylhydroxylamine compounds mainly is to adopt under slightly acidic condition (as: aqueous solution of ammonium chloride) to reduce nitrobenzene compounds [document: Han Guang pasture with zinc, Zhao Shuwei, volumes such as Li Shuwen. organic preparation handbook. Beijing: petrochemical industry press, 1977, middle volume 70; Fu Shiyu, Zhan Huaiyu. chemistry world .1999,6:332-333.].Produce the big chloride by-product of macro-corrosion in the reaction process, not only the also easy contaminate environment of severe corrosion equipment.Document [Liu Xiaozhi, Peng Aidong, Lu Shiwei. Chinese patent application number 02143126.4; Liu Xiaozhi, Lu Shiwei. Chinese patent application number 02147591.1; Liu Xiaozhi, Lu Shiwei. Chinese patent application number 02147590.3; Liu Xiaozhi, Lu Shiwei. Chinese patent application number 03160125.1] reported the method for the synthetic amino benzenes derivates of selenium catalysis, but also be not used in preparation phenylhydroxylamine compounds.

Summary of the invention

The object of the present invention is to provide the method for a kind of reaction conditions gentleness, the synthetic phenylhydroxylamine compounds of selenium catalysis simply and easily.

For achieving the above object, technical scheme of the present invention is as follows: the nitrobenzene derivative with replacement in the presence of reductive agent is a raw material, is catalyzer with selenium, reacts in water or organic solvent, by selenium catalytic reduction reaction one-step synthesis purpose product, reaction formula is as follows:

Wherein:

Substituent R on the nitrobenzene derivative can be one or more and gives electronics and/or electron-withdrawing substituent or be hydrogen atom.The mole dosage of catalyzer is 0.1～20% of a substrate; The mol ratio of reaction substrate and solvent is 1: 1 to 1: 100; Described solvent is one or more polarity or nonpolar inert solvent; Reaction times is 0.25～20 hour; Temperature of reaction is 10～100 ℃.Give electron substituent group as methyl, ethyl; Electron-withdrawing substituent is as trifluoromethyl, halogen; Reductive agent can be as sodium borohydride, POTASSIUM BOROHYDRIDE, tricyano sodium borohydride, tricyano POTASSIUM BOROHYDRIDE, sodium hydrogen selenide, selenium potassium hydride KH for the proton reductive agent; Wherein said solvent can be: water, water/tetrahydrofuran (THF), ethanol, methyl alcohol.

The present invention has following advantage:

1. cost is low.Catalyzer is inexpensive, and facility investment is few, easily operation.

2. reaction conditions gentleness.Do not use the tart reaction solvent, the three wastes are few, production easy to clean.

3. catalyzer is recyclable uses again.

Specific implementation method

Below by embodiment in detail the present invention is described in detail, but the present invention is not limited to following embodiment.

Synthesizing of phenylhydroxylamine under embodiment 1, the selenium catalysis (N-hydroxyanilines)

Under nitrogen protection, in the round-bottomed flask of 100mL, add oil of mirbane (10mmol), selenium (0.5mmol), sodium borohydride (25mmol), dehydrated alcohol 40mL; stirring reaction is 3 hours under room temperature (12 ℃); reaction finishes and carries out the product filtration; filtrate concentrates after sherwood oil (60～90 ℃) recrystallization purifying gets phenylhydroxylamine; m.p.81 ℃ (decomposition), yield are 77%.

Synthesizing of phenylhydroxylamine under embodiment 2, the selenium catalysis (N-hydroxyanilines) compounds

Replace oil of mirbane to react with substituted-nitrobenzene by embodiment 1 method.The result is summarized in table 1 with tabulated form:

Table 1: phenylhydroxylamine under the selenium catalysis (N-hydroxyanilines) compounds synthetic

Embodiment 3, with the example that synthesizes of phenylhydroxylamine (N-hydroxyanilines), phenylhydroxylamine (N-hydroxyanilines) is synthetic under reaction conditionss such as different reductive agents, temperature, solvent, reaction times.The result is summarized in table 2 with tabulated form.

Table 2: conditions such as reductive agent, temperature, solvent, reaction times are to the influence of reaction

Sequence number	Reductive agent	Temperature (℃)	Solvent	Reaction times (h)	Productive rate (%)
Sequence number	Reductive agent	Temperature (℃)	Solvent	Reaction times (h)	Productive rate (%)	6 7 8 9 10 11 12	NaBH ₄ NaBH ₄ NaBH ₄ KBH ₄ NaBH ₄ NaBH ₄ NaBH ₄	Room temperature 40 78 room temperature room temperature room temperature room temperatures	EtOH EtOH EtOH EtOH H ₂O H ₂O/THF EtOH	3 3 3 3 3 3 0.25	77 31 6 76 29 53 56

Reaction conditions: oil of mirbane 10mmol; Sodium borohydride (POTASSIUM BOROHYDRIDE) 25mmol; Selenium 0.5mmol; Dehydrated alcohol 40mL; Temperature 12-78 ℃; Reaction times 0.25-3.0 hour; H ₂O/THF is V _H2O: V _THF=0.5: 40mL.

Claims

1. the method for the synthetic phenylhydroxylamine compounds of a catalysis, it is characterized in that: the nitrobenzene derivative with replacement in the presence of reductive agent is a raw material, is catalyzer with selenium, reacts in water or organic solvent, and reaction formula is as follows:

Wherein:

Substituent R on the nitrobenzene derivative that replaces can be one or more and gives electronics and/or electron-withdrawing group or be hydrogen atom;

Reductive agent is for supplying the proton reductive agent;

The mole dosage of catalyzer selenium is 0.1～20% of a substrate;

The mol ratio of reaction substrate and solvent is 1: 1 to 1: 100;

Solvent is one or more polarity or nonpolar inert solvent;

0.25～20 hour reaction times;

10～100 ℃ of temperature of reaction;

Product adopts recrystallization or column chromatography method to separate.

2. the method for claim 1 is characterized in that, describedly to electron substituent group is: methyl, ethyl; Electron-withdrawing substituent is: trifluoromethyl, halogen.

3. the method for claim 1 is characterized in that, described reductive agent is: sodium borohydride, POTASSIUM BOROHYDRIDE, tricyano sodium borohydride, tricyano POTASSIUM BOROHYDRIDE, sodium hydrogen selenide or selenium potassium hydride KH.

4. the method for claim 1 is characterized in that, described solvent is: water, water/tetrahydrofuran (THF), ethanol, methyl alcohol.

5. the method for claim 1 is characterized in that, described reaction product is when separation and purification, and the solvent that is used for recrystallization is water, ether, sherwood oil and benzene; Using unmodified packed column during column chromatography, is leacheate with sherwood oil and ethyl acetate or toluene and ethyl acetate.