其他null检测 | 在同一台仪器上使用拉曼和红外光谱对非均相催化反应进行在线表征-HORIBA（中国）

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Simultaneous in situ Raman and FTIR spectroscopic characterisations of catalytic systems under reaction conditions have been successfully performed with the LabRAM IR using a dedicated cell. Different adsorbed NOx species (nitrito, nitrato, nitro and nitrate compounds) on the surface of the alumina supported palladium during NO exposure at 473 K have been identified by these spectroscopic measurements. These measurements highlight the complementarity of the two techniques for investigating catalytic reactions. Indeed, Raman spectroscopy gives access to information located at low wavenumbers, enabling the characterization of the active phase during the reaction, while the high sensitivity of IR spectroscopy allows probing adsorbed species at low concentration.

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Simultaneous in situ Raman and FTIR spectroscopic characterisations of catalytic systems under reaction conditions have been successfully performed with the LabRAM IR using a dedicated cell. Different adsorbed NOx species (nitrito, nitrato, nitro and nitrate compounds) on the surface of the alumina supported palladium during NO exposure at 473 K have been identified by these spectroscopic measurements.

These measurements highlight the complementarity of the two techniques for investigating catalytic reactions. Indeed, Raman spectroscopy gives access to information located at low wavenumbers, enabling the characterization of the active phase during the reaction, while the high sensitivity of IR spectroscopy allows probing adsorbed species at low concentration.

上一篇颗粒分析+混合氧化石墨烯+分散状态的混合比例

下一篇 Raman Spectroscopy Applied to the Lithium-ion Battery Analysis.

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HORIBA（中国）

白金会员丨第22年

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