液体闪烁计数技术的发展促进了氚标记化合物的应用。几乎所有的复杂化合物都能用氚方便地标记,使氚成为生物学基础研究中应用最广的核素。许多应用氚标记化合物的研究必须准确地知道氚标记原子的位置和分布,由于缺乏测定方法而使氚标记的魅力大为逊色。近年来氚核磁共振(~3HNMR)应用于氚标记化合物的研究,证明任何氚标记化合物都能用这个非破坏性的方法测定。从而使氚标记的潜力得到进一步发挥。 The development of liquid scintillation counting technology has promoted the use of tritium-labeled compounds. Almost all of the complex compounds can be conveniently labeled with tritium, making tritium the most widely used nuclide in basic biological research. Many studies using tritium-labeled compounds must know precisely the location and distribution of tritium-labeled atoms, which is far less attractive than tritium due to lack of determination. In recent years, the application of triton NMR (~ 3HNMR) to the study of tritium-labeled compounds has demonstrated that any tritium-labeled compound can be measured using this non-destructive method. Thus furthering the potential of tritium labeling.