n-chloroamines formation
n-氯胺的形成
detecting n-chloroamines
检测n-氯胺
n-chloroamines levels
n-氯胺水平
measuring n-chloroamines
测量n-氯胺
n-chloroamines presence
n-氯胺的存在
form n-chloroamines
形成n-氯胺
n-chloroamines risk
n-氯胺风险
n-chloroamines exposure
n-氯胺暴露
reducing n-chloroamines
减少n-氯胺
n-chloroamines analysis
n-氯胺分析
the research team investigated the synthesis of novel n-chloroamines.
研究团队调查了新型n-氯胺的合成。
n-chloroamines are highly reactive intermediates in chlorination reactions.
n-氯胺是氯化反应中高反应活性的中间体。
the formation of unwanted n-chloroamines can lead to byproduct formation.
不需要的n-氯胺的形成会导致副产物的生成。
controlling n-chloroamine levels is crucial for optimizing reaction yields.
控制n-氯胺的水平对于优化反应产率至关重要。
we observed the rapid decomposition of n-chloroamines in aqueous solutions.
我们观察到n-氯胺在水溶液中迅速分解。
the stability of n-chloroamines is affected by temperature and ph.
n-氯胺的稳定性受温度和ph值的影响。
n-chloroamines can be used as effective chlorinating agents in organic synthesis.
n-氯胺可作为有机合成中有效的氯化剂使用。
the presence of n-chloroamines can impact the selectivity of a reaction.
n-氯胺的存在会影响反应的选择性。
careful handling is required when working with potentially explosive n-chloroamines.
在处理潜在的爆炸性n-氯胺时需要小心处理。
the reaction mechanism involves the generation and subsequent reaction of n-chloroamines.
反应机理涉及n-氯胺的生成和随后的反应。
we analyzed the kinetics of n-chloroamine formation during the process.
我们分析了过程中n-氯胺形成的动力学。
n-chloroamines formation
n-氯胺的形成
detecting n-chloroamines
检测n-氯胺
n-chloroamines levels
n-氯胺水平
measuring n-chloroamines
测量n-氯胺
n-chloroamines presence
n-氯胺的存在
form n-chloroamines
形成n-氯胺
n-chloroamines risk
n-氯胺风险
n-chloroamines exposure
n-氯胺暴露
reducing n-chloroamines
减少n-氯胺
n-chloroamines analysis
n-氯胺分析
the research team investigated the synthesis of novel n-chloroamines.
研究团队调查了新型n-氯胺的合成。
n-chloroamines are highly reactive intermediates in chlorination reactions.
n-氯胺是氯化反应中高反应活性的中间体。
the formation of unwanted n-chloroamines can lead to byproduct formation.
不需要的n-氯胺的形成会导致副产物的生成。
controlling n-chloroamine levels is crucial for optimizing reaction yields.
控制n-氯胺的水平对于优化反应产率至关重要。
we observed the rapid decomposition of n-chloroamines in aqueous solutions.
我们观察到n-氯胺在水溶液中迅速分解。
the stability of n-chloroamines is affected by temperature and ph.
n-氯胺的稳定性受温度和ph值的影响。
n-chloroamines can be used as effective chlorinating agents in organic synthesis.
n-氯胺可作为有机合成中有效的氯化剂使用。
the presence of n-chloroamines can impact the selectivity of a reaction.
n-氯胺的存在会影响反应的选择性。
careful handling is required when working with potentially explosive n-chloroamines.
在处理潜在的爆炸性n-氯胺时需要小心处理。
the reaction mechanism involves the generation and subsequent reaction of n-chloroamines.
反应机理涉及n-氯胺的生成和随后的反应。
we analyzed the kinetics of n-chloroamine formation during the process.
我们分析了过程中n-氯胺形成的动力学。
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