基于碰撞诱导解离技术的石油分子结构表征研究进展

摘要/Abstract

摘要： 质谱技术在石油化学中具有广泛的应用，随着质谱分辨率的不断提高，利用高/超高分辨率质谱研究石油详细组成已成为石油化学研究的一个重要方向，并且已经在石油分子组成研究领域取得了较大进展。基于碰撞诱导解离技术，可在高分辨质谱分析的基础上探索化合物的母体结构及侧链结构，从而实现石油分子结构的精细表征，为石油分子转化和重油加氢工艺提供分子科学基础。重点梳理了基于碰撞诱导解离技术对石油分子结构进行表征的研究进展，包括碰撞诱导解离的原理、解离能的计算和碰撞能量的控制以及模型化合物和实际石油分子的碰撞诱导解离表征应用进展。通过碰撞诱导解离表征深入认识石油分子精细结构，以期对重油加氢等相关工艺进行指导，并为催化剂的开发、优化提供参考。

关键词: 傅里叶变换离子回旋共振质谱, 串联质谱, 碰撞诱导解离, 分子结构, 石油组学

Abstract: Mass spectrometry has been widely used in petroleum chemistry. With the continuous improvement of mass resolution, the use of high/ultra-high resolution mass spectrometry to study the detailed composition of petroleum has become an important direction of petrochemical research. Significant progress has been made in the field of petroleum molecular composition research. Based on the collision-induced dissociation technology, the parent structure and side chain structure of the compounds can be explored on the basis of high-resolution mass spectrometry, so as to realize the fine characterization of the molecular structure of petroleum, and provide a scientific basis for petroleum molecular chemistry and heavy oil hydrogenation process. The research progress of collision-induced dissociation on the characterization of petroleum molecular structure is reviewed, including the principle of collision-induced dissociation, the calculation of dissociation energy and the control of collision energy, as well as the application of collision-induced dissociation characterization of model compounds and real petroleum molecules. Through collision-induced dissociation characterization, the fine structure of petroleum molecules can be deeply understood in order to guide the related processes of heavy oil hydrogenation and provide references for the development and optimization of catalysts.

Key words: Fourier transform ion cyclotron resonance mass spectrometry, tandem mass spectrometry, collision-induced dissociation, molecular structure, petroleomics

王冲夏润天章群丹王威蔡新恒. 基于碰撞诱导解离技术的石油分子结构表征研究进展[J]. 石油炼制与化工, 2025, 56(4): 11-17.

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