Measurement of laser activated electron tunneling from semiconductor zinc oxide to adsorbed organic molecules by a matrix assisted laser desorption ionization mass spectrometer

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• 作者：Hongying Zhong ; ^{hyzhong@mail.ccnu.edu.cn} ; Jieying Fu¹ ; Xiaoli Wang¹ ; Shi Zheng
• 关键词：Laser ; Electron tunneling ; Semiconductor ; Ionization ; Mass spectrometry
• 刊名：Analytica Chimica Acta
• 出版年：2012
• 出版时间：4 June, 2012
• 年：2012
• 卷：729
• 期：Complete
• 页码：45-53
• 全文大小：760 K

文摘

Measurement of light induced heterogeneous electron transfer is important for understanding of fundamental processes involved in chemistry, physics and biology, which is still challenging by current techniques. Laser activated electron tunneling (LAET) from semiconductor metal oxides was observed and characterized by a MALDI (matrix assisted laser desorption ionization) mass spectrometer in this work. Nanoparticles of ZnO were placed on a MALDI sample plate. Free fatty acids and derivatives were used as models of organic compounds and directly deposited on the surface of ZnO nanoparticles. Irradiation of UV laser (¦Ë = 355 nm) with energy more than the band gap of ZnO produces ions that can be detected in negative mode. When TiO₂ nanoparticles with similar band gap but much lower electron mobility were used, these ions were not observed unless the voltage on the sample plate was increased. The experimental results indicate that laser induced electron tunneling is dependent on the electron mobility and the strength of the electric field. Capture of low energy electrons by charge-deficient atoms of adsorbed organic molecules causes unpaired electron-directed cleavages of chemical bonds in a nonergodic pathway. In positive detection mode, electron tunneling cannot be observed due to the reverse moving direction of electrons. It should be able to expect that laser desorption ionization mass spectrometry is a new technique capable of probing the dynamics of electron tunneling. LAET offers advantages as a new ionization dissociation method for mass spectrometry.