dehydrogenations occur
脱氢反应发生
catalyzing dehydrogenations
催化脱氢
studying dehydrogenations
研究脱氢
multiple dehydrogenations
多次脱氢
successive dehydrogenations
连续脱氢
analyzing dehydrogenations
分析脱氢
complex dehydrogenations
复杂脱氢
detailed dehydrogenations
详细脱氢
observed dehydrogenations
观察到的脱氢
preventing dehydrogenations
防止脱氢
catalytic dehydrogenations are crucial for producing various chemicals.
催化脱氢反应对于生产各种化学品至关重要。
selective dehydrogenations can improve reaction efficiency.
选择性脱氢反应可以提高反应效率。
the study investigated the mechanism of platinum-catalyzed dehydrogenations.
该研究调查了铂催化的脱氢反应机理。
understanding dehydrogenations is vital for designing new catalysts.
理解脱氢反应对于设计新型催化剂至关重要。
gas-phase dehydrogenations are often used in industrial processes.
气相脱氢反应通常用于工业过程中。
researchers explored novel catalysts for alkane dehydrogenations.
研究人员探索了用于烷烃脱氢的新型催化剂。
the yield of dehydrogenations depends on reaction conditions.
脱氢反应的收率取决于反应条件。
homogeneous dehydrogenations offer unique advantages in some cases.
均相脱氢反应在某些情况下具有独特的优势。
heterogeneous dehydrogenations are more common in industry.
非均相脱氢反应在工业中更为常见。
detailed kinetic studies of dehydrogenations are ongoing.
关于脱氢反应的详细动力学研究正在进行中。
computational modeling aids in understanding dehydrogenations.
计算建模有助于理解脱氢反应。
the efficiency of dehydrogenations is affected by mass transfer limitations.
脱氢反应的效率受传质限制的影响。
dehydrogenations occur
脱氢反应发生
catalyzing dehydrogenations
催化脱氢
studying dehydrogenations
研究脱氢
multiple dehydrogenations
多次脱氢
successive dehydrogenations
连续脱氢
analyzing dehydrogenations
分析脱氢
complex dehydrogenations
复杂脱氢
detailed dehydrogenations
详细脱氢
observed dehydrogenations
观察到的脱氢
preventing dehydrogenations
防止脱氢
catalytic dehydrogenations are crucial for producing various chemicals.
催化脱氢反应对于生产各种化学品至关重要。
selective dehydrogenations can improve reaction efficiency.
选择性脱氢反应可以提高反应效率。
the study investigated the mechanism of platinum-catalyzed dehydrogenations.
该研究调查了铂催化的脱氢反应机理。
understanding dehydrogenations is vital for designing new catalysts.
理解脱氢反应对于设计新型催化剂至关重要。
gas-phase dehydrogenations are often used in industrial processes.
气相脱氢反应通常用于工业过程中。
researchers explored novel catalysts for alkane dehydrogenations.
研究人员探索了用于烷烃脱氢的新型催化剂。
the yield of dehydrogenations depends on reaction conditions.
脱氢反应的收率取决于反应条件。
homogeneous dehydrogenations offer unique advantages in some cases.
均相脱氢反应在某些情况下具有独特的优势。
heterogeneous dehydrogenations are more common in industry.
非均相脱氢反应在工业中更为常见。
detailed kinetic studies of dehydrogenations are ongoing.
关于脱氢反应的详细动力学研究正在进行中。
computational modeling aids in understanding dehydrogenations.
计算建模有助于理解脱氢反应。
the efficiency of dehydrogenations is affected by mass transfer limitations.
脱氢反应的效率受传质限制的影响。
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