采用程序升温还原法制备氧化铝载体负载的氮化镍钼。
Synthesis and characterization of an environmental protection catalytic materials molybdenum nitride;
进行了三效催化活性的评价,程序升温还原(TPR)表征和储氧量的测定。
The measurements of the oxygen storage capacity (OSC) and temperature programmed reduction (TPR) were used to characterize the properties of the catalysts.
采用程序升温还原法制备了WC催化剂,在做了表面氧修饰后对其进行了原位评价。
WC catalyst was prepared by temperature-programmed reduction and was oxygen-modified on surface to do line evaluation.
利用程序升温还原法(TPR)和定温吸附(TRS)相结合的技术来研究这些催化剂的还原情况和对氢的吸附情况。
The reduction and hydrogen sorption for these catalysts were instigated by means of combination of temperature-programmed reduction ( TPR) and temperature-resolved sorption ( TRS ) technique.
采用程序升温还原(TPR)、氢的化学吸附和NH_3的程序升温脱附(NH3 -TPD)对催化剂进行了表征。
The catalyst is characterized by temperature programmed reduction (TPR), H_2 chemisorption and ammonia temperature programmed desorption (NH3-TPD).
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。
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。
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.
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