2.45GHz下常用有机试剂复介电常数的测量与研究

1986年加拿大的R．Gedye和R．J．Giguere等发现了微波可以显著加快有机合成，他们发现用微波辐射可使反应速率和产率有不同程度的提高。由于微波作用机理的特殊性，微波化学对很多化学领域带来了冲击。但是，微波与化学反应体系之间相互作用的一些重大问题还未得到解决，如微波加热过程中化学反应系统的非线性反射、非均匀加热等。解决这类问题，首先必须了解化学反应过程中混合物的电学性质与磁学性质，而物质的宏观电学和磁学性质都用其介电常数和磁导率来描述。对于大部分是非磁性材料的有机试剂，微波与反应体系相互作用的特性集中体现在体系的等效复介电常数上。了解各种常用试剂的复介电常数，可以进一步了解各种化学试剂对微波的吸收和反射的情况。而很多试剂的复介电常数无法从现有文献中得到。本文利用谐振腔微扰法测定了在2．45GHz室温下各类常用有机试剂的复介电常数，结果显示：醇类试剂复介电常数实部与虚部都较大；酮类试剂复介电常数实部相对较大，而虚部较小；酸类试剂复介电常数实部和虚部都较小；烷烃和苯类试剂实部，虚部更小。同时，随着碳链增加，所有试剂的复介电常数的实部与虚部均有下降趋势。这些测试和分析结果将为微波辅助有机合成提供了有益参考。

Study on the complex permittivity of common organic reagent at 2.45 GHz

The dielectric property of organic reagent is key to the study of Microwave-assisatant organic synthesization.The data of complex permittivity of these organic reagents can not be obtained easy.The complex permittvity of these organic regents were measured in 2.45 GHz by cavity perturbation method.The result shows that the real and imaginary parts of the permittivity of alcohol are larger than others.The real part of the complex permittivity of ketone is larger and the imaginary part is smaller.The real and imaginary parts of the permittivity of acid are smaller.The real and imaginary parts of the permittivity of alkyl and benzene are the smallest.The real part and the imaginary parts of the permittivity of all decrease while the increasing of the number of carbon's chain.The analysis and the measurement offer high helps in the microwave assistant organic synthesization.