School of Municipal and Environmental Engineering, Harbin Institute of Technology, Harbin, Heilongjiang, 150090, People's Republic of China.
State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology, Harbin, Heilongjiang, 150090, People's Republic of China.
J Am Soc Mass Spectrom. 2017 Sep;28(9):1939-1946. doi: 10.1007/s13361-017-1698-8. Epub 2017 May 17.
Real-time monitoring of photocatalytic reactions facilitates the elucidation of the mechanisms of the reactions. However, suitable tools for real-time monitoring are lacking. Herein, a novel method based on droplet spray ionization named substrate-coated illumination droplet spray ionization (SCI-DSI) for direct analysis of photocatalytic reaction solution is reported. SCI-DSI addresses many of the analytical limitations of electrospray ionization (ESI) for analysis of photocatalytic-reaction intermediates, and has potential for both in situ analysis and real-time monitoring of photocatalytic reactions. In SCI-DSI-mass spectrometry (MS), a photocatalytic reaction occurs by loading sample solutions onto the substrate-coated cover slip and by applying UV light above the modified slip; one corner of this slip adjacent to the inlet of a mass spectrometer is the high-electric-field location for launching a charged-droplet spray. After both testing and optimizing the performance of SCI-DSI, the value of this method for in situ analysis and real-time monitoring of photocatalytic reactions was demonstrated by the removal of cyclophosphamide (CP) in TiO/UV. Reaction times ranged from seconds to minutes, and the proposed reaction intermediates were captured and identified by tandem mass spectrometry. Moreover, the free hydroxyl radical (·OH) was identified as the main radicals for CP removal. These results show that SCI-DSI is suitable for in situ analysis and real-time monitoring of CP removal under TiO-based photocatalytic reactions. SCI-DSI is also a potential tool for in situ analysis and real-time assessment of the roles of radicals during CP removal under TiO-based photocatalytic reactions.Graphical Abstract.
实时监测光催化反应有助于阐明反应机制。然而,缺乏用于实时监测的合适工具。在此,报道了一种基于液滴喷雾电离的新方法,命名为基底涂覆照明液滴喷雾电离(SCI-DSI),用于直接分析光催化反应溶液。SCI-DSI 解决了电喷雾电离(ESI)分析光催化反应中间体的许多分析局限性,并且具有原位分析和光催化反应实时监测的潜力。在 SCI-DSI-质谱(MS)中,通过将样品溶液加载到基底涂覆的盖玻片上并在改性的 slip 上方施加 UV 光来发生光催化反应;slip 与质谱仪入口相邻的一角是用于发射带电液滴喷雾的高电场位置。在测试和优化 SCI-DSI 的性能后,通过在 TiO/UV 中去除环磷酰胺(CP)来证明该方法用于原位分析和光催化反应的实时监测的价值。反应时间从几秒钟到几分钟不等,通过串联质谱法捕获和鉴定了所提出的反应中间体。此外,鉴定出游离羟基自由基(·OH)是 CP 去除的主要自由基。这些结果表明,SCI-DSI 适用于在 TiO 基光催化反应下进行 CP 去除的原位分析和实时监测。SCI-DSI 也是在 TiO 基光催化反应下原位分析和实时评估 CP 去除过程中自由基作用的潜在工具。
