On December 31,2023,World Federation of Acupuncture-Moxibustion Societies(WFAS)officially issued Technical Benchmark of Acupuncture and Moxibustion:Filiform Needle.This technical benchmark clarifies terms and definiti...On December 31,2023,World Federation of Acupuncture-Moxibustion Societies(WFAS)officially issued Technical Benchmark of Acupuncture and Moxibustion:Filiform Needle.This technical benchmark clarifies terms and definitions,operating procedures and requirements,safety requirements,etc.The promulgation and implementation of this technical benchmark would provide a standard for acupuncture practitioners to apply filiform needle in clinical practice,and may play a positive role in the safe use and promotion of filiform needle.展开更多
A new self-condensing vinyl polymerization system consisting of *ABf-type inimers is studied by the principle of statistical mechanics. To obtain the relevant average properties of the system, a differential equation ...A new self-condensing vinyl polymerization system consisting of *ABf-type inimers is studied by the principle of statistical mechanics. To obtain the relevant average properties of the system, a differential equation satisfied by the polymeric moment of interest is given, and as a result the zeroth, first, second, and third polymeric moments together with the size distribution function of hyperbranched polymers(HBPs) are explicitly presented. As an application of the method of statistical mechanics, several thermodynamic quantities such as the equilibrium free energy, law of mass action, isothermal compressibility, internal energy, and the specific heat associated with the polymerization are all derived. Furthermore, the scaling behavior of asymptotic size distribution function is discussed, by which a reasonable interpretation of the polydispersity index near the end of polymerization can be made. Also, the expressions of some structural parameters such as the numbers of inimers, terminal units, chain units, branched units, and the degree of branching(DB) are calculated. It is found that a high functionality is helpful to improve the DB of the resultant HBPs. These results show that the functionality f has a significant effect on the thermodynamic quantities and structural properties of HBPs.展开更多
基金Supported by National Key Research and Development Program:2019YFC1712204。
文摘On December 31,2023,World Federation of Acupuncture-Moxibustion Societies(WFAS)officially issued Technical Benchmark of Acupuncture and Moxibustion:Filiform Needle.This technical benchmark clarifies terms and definitions,operating procedures and requirements,safety requirements,etc.The promulgation and implementation of this technical benchmark would provide a standard for acupuncture practitioners to apply filiform needle in clinical practice,and may play a positive role in the safe use and promotion of filiform needle.
基金supported by the National Natural Science Foundation of China(21274056,21374028)Natural Science Foundation of Hebei province(B2015408007)the doctoral funds of Langfang Teachers University(LSBS201308)
文摘A new self-condensing vinyl polymerization system consisting of *ABf-type inimers is studied by the principle of statistical mechanics. To obtain the relevant average properties of the system, a differential equation satisfied by the polymeric moment of interest is given, and as a result the zeroth, first, second, and third polymeric moments together with the size distribution function of hyperbranched polymers(HBPs) are explicitly presented. As an application of the method of statistical mechanics, several thermodynamic quantities such as the equilibrium free energy, law of mass action, isothermal compressibility, internal energy, and the specific heat associated with the polymerization are all derived. Furthermore, the scaling behavior of asymptotic size distribution function is discussed, by which a reasonable interpretation of the polydispersity index near the end of polymerization can be made. Also, the expressions of some structural parameters such as the numbers of inimers, terminal units, chain units, branched units, and the degree of branching(DB) are calculated. It is found that a high functionality is helpful to improve the DB of the resultant HBPs. These results show that the functionality f has a significant effect on the thermodynamic quantities and structural properties of HBPs.
