A series of transition metal carbides and phosphides were prepared by temperature-programmed reaction method, and their activities for NO dissociation and reduction reactions were investigated.
利用程序升温反应法制备了一系列过渡金属碳化物和磷化物,研究它们的晶格热稳定性,考察它们的NO解离和还原反应性能。
The decrease in the desorption temperature facilitates the thermal desorption of bridge-bound NO on Pt(110), and thus inhibits the dissociation reaction of NO.
降低脱附温度有利于桥式吸附NO的分子脱附,从而抑制分解反应。
Due to different capacity of dissociation groups in the soils, there was no obvious distribution characteristic of organically-bound heavy metals in the sampling area.
由于土壤样品的不同解离功能团结合重金属的能力不同,采样区的重金属有机质结合态未表现出明显的分布规律。
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