1) Argon isotopic fractionation
氩同位素分馏
2) Isotopic fractionation
同位素分馏
1.
Because of the special feature with the multivalences,multi-mass number and larger isotopic fractionation,Se isotopes have caused more attention.
硒同位素作为非传统稳定同位素的重要组成部分,由于具多价态、多质量数、同位素分馏效应大的特点,已成为目前发展最迅速的同位素之一。
2.
The isotopic fractionation under microbial actions belongs to the kinetic isotopic fractionation,which results in the enrichment of heavier isotopes in .
微生物作用下的同位素分馏为动力同位素分馏,导致重同位素在残余物中富集。
3.
There exist possible isotopic fractionation effects in generation-expulsion process of terrestrial source rocks.
在陆相干酪根生排烃过程中,烃类可能会发生同位素分馏效应。
3) isotope fractionation
同位素分馏
1.
Through acetone via 2,4-dinitrophenylhydrazine(DNPH)derivatization,it was found that isotope fractionation values were so little as to be ignored during the whole reaction process,the derivatization process showed that no carbon isotope fractionation occurred for acetone within the precision limits of the GC/C/IRMS system(<0.
研究结果表明,在衍生化过程中不会产生碳同位素分馏。
2.
The researchful status of the isotope fractionation the stable isotopes in tracing to sources and trailing pollutant,specially in apportioning the atm.
介绍了稳定同位素分馏对于来源分析的影响以及稳定同位素技术在污染物溯源与示踪中识别大气多环芳烃来源、推测环境中硫和铅的来源、考察甲基叔丁基醚来源与降解过程等方面的应用进展。
3.
In addition,the experiment working standard of H2 was certified by H2 /H2O(l) equlibrium H/D isotope analysis associating with hydrogen isotope fractionation equilibrium.
在此基础上进行了本地饮用水的分析,并结合H2-H2O(l)体系氢同位素分馏平衡方程,实现实验室氢气工作标准气的标定,结果与铬还原法标定值相一致。
4) argon isotope
氩同位素
1.
Using the decrepitation technique by step heating,Argon isotope composition of fluid inclusions in quartz from various hydrothermal deposits in different geological conditions was systematically determined and contents of atmospheric Argon constituent (wArA/%) in each heating steps were calculated.
采用分阶段加热爆裂法测定了不同成因热液矿床脉石英流体包裹体的氩同位素,计算出各温度段内大气氩的相对含量,从而,总结出大气降水热液矿床、再平衡岩浆水热液矿床等成矿流体的氩同位素组成特征及其演化规律。
5) Sulfur isotope fractionation
硫同位素分馏
1.
Advances in the theoretical calculation research of sulfur isotope fractionation in sulfides;
硫化物中硫同位素分馏理论计算研究进展
6) Fractionation of argonisotope
Ar同位素分馏
补充资料:生物同位素分馏
分子式:
CAS号:
性质:有生物体参加的物理及化学作用引起的同位素效应。动、植物及微生物在其生活过程中经常与周围介质发生大规模的物质交换,如动、植物的呼吸、光合作用,细菌的新陈代谢等。一般轻同位素组分重同位素组分更容易被吸收和参加新陈代谢。因此,生物成因的地质体如煤、石油、天然气等具有最高的12C/13C值。
CAS号:
性质:有生物体参加的物理及化学作用引起的同位素效应。动、植物及微生物在其生活过程中经常与周围介质发生大规模的物质交换,如动、植物的呼吸、光合作用,细菌的新陈代谢等。一般轻同位素组分重同位素组分更容易被吸收和参加新陈代谢。因此,生物成因的地质体如煤、石油、天然气等具有最高的12C/13C值。
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参考词条