微波对烯丙基芳醚的Claisen重排反应影响研究

5种烯丙基芳醚衍生物在无溶剂、无催化剂的条件下进行Claisen重排反应,采用了微波加热和常规加热方式,比较了同等温度下微波加热和常规加热反应速率的差异.结果表明微波加热可以显著提高烯丙基苯醚Claisen重排反应的速率.反应温度为190℃时,微波加热下反应速率可提高5～10倍.微波加热是一种无催化剂、高产率的Claisen重排反应的方法.     

2-氨基噻唑5位的羟甲基化和胺甲基化

采用微波法、封管加热以及酯基还原三种方法,在2-氨基噻唑衍生物的5位引入羟甲基,得到一系列新的5位羟甲基取代的新衍生物.并将三种方法进行对比,结果表明,封管加热对底物热稳定性要求苛刻,反应时间长,反应液杂,反应收率低.酯基还原的方法需在合成噻唑前引入酯基后还原,路线长,且收率低.采用微波法,反应时间短,转化率高,反应液副产物少,收率明显高于其他两种合成方法.同时报道了用NaH作碱制得氰基酯钠盐,再经关怀关环、还原得到一系列5位为氨甲基的噻唑新衍生物.     

ZnCl_2溶液中微波辅助SnCl_4催化纤维素制备5-HMF

将纤维素溶解在ZnCl_2溶液中,以SnCl_4为催化剂,微波下使纤维素降解成5-羟甲基糠醛(5-HMF)。实验考察了微波功率、纤维素的质量、ZnCl_2溶液浓度、反应时间及催化剂与纤维素物质的量比等对5-HMF产率的影响。结果表明,以SnCl_4为催化剂,在优化条件:1.0 g纤维素溶解在100 m L 70%ZnCl_2溶液中,微波功率为420 W,降解反应9 min,SnCl_4与纤维素物质的量比2∶1下,5-HMF的产率达到39.4%。     

微波固相法合成钠快离子导体Na5YSi4O12

应用微波方法合固相反应难于制备的Ｎａ５ＹＳｉ４Ｏ１２纯相，讨论了微波合成条件对产物的影响，与溶胶－凝胶法相比，微波法反应速率快，选择性强，合成的样品具有特异的聚集态，缺陷和微结构，从而导致离子导电活化能下降。     

Microwave assisted synthesis of dihydropyrrole by AgOAc catalyzed intramolecular cyclization reaction of homopropargyl amine

A series of 5-aryl dihydropyrrole was synthesized from the intramolecular cyclization reaction of homopropargyl amine in the presence of AgOAc as catalyst under microwave irradiation reaction conditions. The homopropargyl amine was prepared by the reaction of propargyl bromide with N-tosyl aldimine under a sonochemical Barbier-type reaction condition. Further aromatization reaction of 5-aryl dihydropyrrole in KOtBu/DMSO can afford 2-aryl pyrrole under microwave irradiation reaction conditions.     

Tetrazoles: LV. Perparation of 2-anilino-5-aryl(hetaryl)-1,3,4-oxadiazoles from 5-substituted tetrazoles under microwave activation

In reaction of 5-aryl(hetaryl)tetrazoles with phenyl isocyanate under the conditions of microwave activation the corresponding 2-anilino-5-aryl(hetaryl)-1,3,4-oxadiazoles formed in high yields. The application of the microwave activation fourfold reduced the reaction time.     

微波辐射下三甲醇丙烷、季戊四醇与羧酸合成润滑油类羧酸酯

用三甲醇丙烷、季戊四醇分别与碳五至碳九的直链一元羧酸在微波辐射加热条件下合成润滑油类羧酸酯,并与常规合成进行了对照.结果表明:在微波辐射下反应时间大大缩短,合成速率提高到10～15倍,该法操作简单,产物用1H NMR,13C NMR和IR确定了结构.     

新型氨基甲酸含氮杂环甲基酯的合成及生物活性研究

常规加热或微波照射下, 含氮杂环1与多聚甲醛反应以良好的产率生成含氮杂环基甲醇3, 反应物物质的量的比、反应温度等对反应产率有影响, 微波条件下的反应时间比常规加热下大大缩短. 化合物3和异氰酸酯4在常规加热或微波照射下生成相应的氨基甲酸含氮杂环甲基酯5a～5m. 反应温度、反应物物质的量的比、反应时间、微波辐射功率等对反应产率都有一定的影响, 与常规加热相比微波条件下的反应时间大大缩短. 化合物5的结构经过IR, ¹H NMR, MS, 元素分析测定, 部分化合物经过¹³C NMR测定. 测定了化合物5的杀虫和除草活性, 结果表明其杀虫活性较低, 除草活性高于杀虫活性, 5a, 5d, 5e和5m对苋菜和黄瓜的防除率高达100%.     

Synthesis of Tetrahydrothiopyrano[2,3‐b]indole [60]Fullerene Derivatives via Hetero‐Diels–Alder Reaction of C60 and α,β‐Unsaturated Indole‐2‐thiones

Hetero‐Diels–Alder reactions of [60]fullerene with α,β‐unsaturated thio‐oxindoles ( 3a , 3b , 3c ), prepared from thio‐oxindole 1 and heteroaromatic aldehydes ( 2a , 2b , 2c ), to generate tetrahydrothiopyrano[2,3‐b ]indole [60]fullerene cycloadducts ( 5a , 5b , 5c ) under thermal or microwave irradiation were described. The yields were improved, and the reaction time was decreased by conducting the reaction under microwave irradiation.     

微波促进活性炭负载四氯化锡催化合成乙酰乙酸乙酯缩酮

在微波辐射下,以活性炭负载四氯化锡(SnCl4·5H2O/C)为催化剂,不用溶剂,合成了乙酰乙酸乙酯乙二醇缩酮和乙酰乙酸乙酯1,2-丙二醇缩酮。以乙酰乙酸乙酯与乙二醇缩合为模型反应进行优化,其优化条件是:负载量为20%的SnCl4·5H2O/C催化剂0.1 g,乙酰乙酸乙酯5 mL,乙二醇6 mL,微波辐射功率600 W,辐射时间2.5 min,产率达81.6%。产物经过红外光谱表征。     

微波辐射下2-芳基取代苯并噁唑的合成

邻氨基酚和芳香羧酸在微波辐射条件下缩合,合成了4种2-芳基取代苯并噁唑化合物。优化反应条件为：多聚磷酸为催化剂,辐射功率500W,辐射时间4min。     

Microwave synthesis of zeolites. 2. Effect of vessel size, precursor volume, and irradiation method

The enhancement of synthesis reactions under microwave heating is dependent on many complex factors. We investigated the importance of several reaction engineering parameters relevant to microwave synthesis. Of interest to this investigation were the reaction vessel size, volume of precursor reacted, microwave power delivery, and microwave cavity design. The syntheses of NaY zeolite and beta-zeolite were carried out under a number of varying conditions to determine the influence of these parameters on the nucleation rate, the crystallization rate, and the particle size and morphology. The rates of NaY and beta-zeolite nucleation and crystallization were more rapid in the multimode CEM MARS-5 oven compared to the more uniform field CEM Discover. The faster synthesis rate in the MARS-5 may be the result of the multimode microwave electric field distribution. Slower rates of NaY and beta-zeolite formation observed in the Discover and a circular waveguide may be the result of a more uniform microwave electric field distribution. Changes in reaction vessel size and precursor volume during the microwave synthesis of beta- and NaY zeolite were found to influence the rate of zeolite formation. These results indicate that reactor geometry needs to be considered in the design of systems used for microwave synthesis. Comparative synthesis reactions were carried out with conventional heating, and microwave heating was shown to be up to over an order of magnitude faster for most of these syntheses.     

Green Synthesis of Some Calix[4]Resorcinarene Under Microwave Irradiation

A green synthetic procedure for the preparation of some calix[4]resorcinarenes using a household microwave oven has been carried out. This method represents a very rapid heating alternative to the conventional method that involves very long time of reactions (from 20-24 h in conventional heating to 5-8 min in microwave irradiation). C-4-hydroxy–3-methoxycalix[4]resorcinarene (CHMPCR), C-4-methoxyphenylcalix[4]resorcinarene (CMPCR) and C-2–phenylethenilcalix[4]resorcinarene (CPECR) was achieved by placed of resorcinol, an aldehyde, HCl and ethanol inside a household microwave oven. The product was recrystallized by methanol and analyzed by spectral analysis (FTIR, H-NMR and MS). Optimization of reaction was carried out in variation of microwave power, reaction times and reactant composition. The result shows that optimum condition of synthesis of C-4-hydroxy-3–methoxycalix[4]resorcinarene (CHMPCR) with microwave irradiation were at microwave power 332 W, reaction time 8 min and the mole ratio of resorcinol and 4-hydroxy-3-methoxyphenylbenzaldehyde 1:1. This parameter gave product in 97.8% (53.7% after recrystallization). The CPECR synthesis using resorcinol and cynnamaldehyde (1:1) at microwave power 332 W for 5 min afforded the product in 97.3% (44.5% after recrystallization). Whereas the reaction of resorcinol and 4-methoxyphenylbenzaldehyde (1:1.2) at microwave power 264 W for 5 min gave CMPCR in 99.5% (68.6% after recrystallization).     

Microwave‐Assisted Solid‐Phase Synthesis of a 1,2‐Disubstituted Benzimidazole Library by Using a Phosphonium Linker

An efficient and rapid microwave‐assisted solid‐phase method for the synthesis of 5‐methyl‐1,2‐disubstituted benzimidazoles derivatives has been developed. The phosphonium linker, obtained by reaction between polymer‐supported triphenylphosphine and 4‐fluoro‐3‐nitrobenzyl iodide, underwent aromatic substitution with primary amines, followed by one‐pot reaction with aldehydes in the presence of SnCl₂·2H₂O, yielded the benzimidazole system under microwave irradiation. The final products were released from the resin with NaOH under microwave irradiation and were obtained in high purity and good overall yield.     

微波炉加热法合成3-芳基-1, 2, 4-三唑啉-5-硫酮

本文报道了微波炉加热法合成3-芳基-1, 2, 4-三唑啉-5-硫酮,研究了反应时间, 溶液用量, 微波功率及芳基对反应产物收率的影响。     

Solvent-free Synthesis of 5-Azacytosine with Microwave Activation

5-Azacytosine (4-amino-1,2-dihydro-1,3,5-triazin-2-one) is a very important intermediate in the synthesis of 5-azacytidine which showed remarkable bacteriostatic and cytostatic activity as well as against T-4 lymphoma and L-1210 leukemia in mice. Starting with N-cyanoguanidine (dicyandiamide) and formic acid, under the solvent-free microwave activation,we synthesized 5-azacytosine in short time (4min) with good yield (60.4%). The structure of the product was confirmed by 1HNMR and Elemental analysis.In this paper, a new and rapid synthesis of 5-azacytosine has been reported for the first time in microwave oven. N-cyanoguanidine (0.05tmol) and anhydride formic acid (0.18mol) were stirred well. Then irradiate the reaction mixture in microwave oven for the specified time (4min) under solvent-free condition. After the reaction was complete, the resulting solid was disperated in warm absolute ethanol (10ml), cooled to 0℃, filtered and dried in vacuum to yield the crude product. The pure product was obtained by recrystallization.     

离子液体中微波辅助的 Lewis 酸催化纤维素制备 5-羟甲基糠醛

 以离子液体 1-丁基-3-甲基咪唑氯为溶剂, 以 CrCl3•6H2O 为催化剂, 直接转化纤维素生成 5-羟甲基糠醛 (HMF). 考察了微波辐射条件、反应温度、反应时间及催化剂用量对 HMF 产率的影响. 结果表明, 在最佳条件下, HMF 产率可达 55%.     

Facile Microwave‐assisted Synthesis of 1,3,5‐Trisubstituted Pyrazoline Derivatives Incorporating Sulfonyl Moiety

We developed an environmentally benign, convenient microwave‐assisted process for the construction of 1,3,5‐trisubstitued pyrazolines ( 10a ～ 10f , 11a ～ 11f , 12a ～ 12f , 13a ～ 13f ). Chalcones, as the key intermedi‐ ates, were obtained by the condensation of each of appropriately substituted aromatic aldehydes ( 1 ～ 4 ) with 4‐substituted acetophenones ( 5a ～ 5f ) via a Claisen‐Schmidt reaction under the action of microwave irradiation. Cyclization of the chalcones ( 6a ～ 6f , 7a ～ 7f , 8a ～ 8f , 9a ～ 9f ) with p‐toluene sulfonhydrazide af‐ forded 1,3,5‐trisubstitued pyrazoline derivatives using microwave‐assisted process in 25 min and 140 watt power in glycol. The structures of targeted compounds were established by IR, ¹H NMR, MS and ele‐ mental analysis. The results indicate that microwave‐assisted synthetic process presents advantages in terms of enhancement in rate, decrease in reaction time, clean reaction and convenient operation.     

Reaction of Cobalt(III) Diaquatetrammine Cation with 5-(3-Nitrophenyl)tetrazole

A series of cobalt(III) tetrazolate tetrammine complexes were prepared by reaction of cobalt(III) diaquatetraammine perchlorate with 5-(3-nitrophenyl)tetrazole. The factors affecting this reaction were studied. The reaction was thermally activated both by common heating with an external heater and microwave heating. Thermolysis of the tetrazolate complexes was studied.     

Preparation and characterization of optically active and organosoluble poly(amide‐imide)s from polycondensation reaction of N,N′‐(4,4′‐sulphonediphthaloyl)‐bis‐L‐isoleucine diacid with aromatic diamines

3,3′,4,4′‐Diphenylsulfonetetracarboxylic dianhydride (1) was reacted with L ‐isoleucine (2) in acetic acid and the resulting imide‐acid (3) was obtained in high yield. The diacid chloride (4) was prepared from the diacid derivative (3) by reaction with thionyl chloride. The polycondensation reaction of diacid chloride (4) with several aromatic diamines such as 4,4′‐sulfonyldianiline (5a), 4,4′‐diaminodiphenyl methane (5b), 4,4′‐diaminodiphenylether (5c), p‐phenylenediamine (5d),m‐phenylenediamine (5e), 2,4‐diaminotoluene (5f) and 4,4′‐diaminobiphenyl (5g) was performed by two conventional methods: low temperature solution polycondensation and short period reflux conditions. In order to compare conventional solution polycondensation reaction methods with microwave‐assisted polycondensation, the reactions were also carried out under microwave conditions with a small amount of o‐cresol that acts as a primary microwave absorber. The reaction mixture was irradiated for 6 min with 100% of radiation power. Several new optically active poly(amide‐imide)s with inherent viscosity ranging from 0.23 to 0.41 dl/g were obtained with high yield. All of the earlier polymers were fully characterized by IR, elemental analyses and specific rotation techniques. Some structural characterizations and physical properties of these new optically active poly(amide‐imide)s are reported. Copyright © 2005 John Wiley & Sons, Ltd.