Methods Anaerobic environment was created by using palladiu catalysis for culture of anaerobic and aerobic bacteria in bile of 178 patients with the tract infection.
方法采用厌氧培养箱,用抽气换气靶粒催化耗氧法造成厌氧环境,对178例胆管疾病病人胆汁进行了厌氧菌与需氧菌分离培养。
MethodsUsing anaerobic culture incubator,and anaerobic environment was created by using palladiu catalysis.
方法采用厌氧培养箱,用抽气换气钯粒催化耗氧法造成厌氧环境,对65例中耳炎病人中耳分泌物进行厌氧菌及需氧菌分离培养。
Objective To raise positive rate of anaerobic culture and study anaerobic distribution in various kinds of clinical samples.
结果 76 2份临床标本厌氧和需氧培养 ,5 0 2份细菌培养阳性 ,总阳性率 6 5 9%。
New advances in palladium-catalyzed aerobic oxidation reactions are reviewed.
总结了近年来对Pd催化的需氧氧化反应研究的最新进展,包括醇的氧化反应和对二级醇的氧化动力学手性拆分,烯烃的氧化反应,氧化脱氢性C—O,C—N和C—C成键反应、以及C—C键键裂产生的开环、扩环、缩环反应。
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