2-methylisoborneol结构式2-methylisoborneol结构式 2-methylisoborneol (2-MIB)的结构式如下: CH3 H \ \ C C \ / C || C / \ C C / / H CH3©2022 Baidu |由 百度智能云 提供计算服务 | 使用百度前必读 | 文库协议 | 网站地图 | 百度营销 ...
We have produced a hybridoma cell line that produces monoclonal antibodies (MAb) that bind effectively to 2-methylisoborneol (MIB). The MAbs were produced using a structurally related molecule, borneol, whose structure was minimally changed when complexed to the protein carrier. These MAbs detected ...
1.The removal efficiencies of 2-methylisoborneol(MIB) by KMnO_4,NaClO,H_2O_2,O_3 were compared,and it was found that ozone was the most effective oxidant for MIB removal.比较了几种常见氧化剂对饮用水中嗅味物质2-甲基异莰醇(2-methylisoborneol,MIB)的氧化去除效果。 2.The relative standard...
It was found that MIB and geosmin removal increased with higher applied ozone doses, but longer contact times over the range of 6-12 min were not significant. It was determined that 80-90 percent removal could be achieved with an ozone dose of approximately 4.0 mg/l, as compared to an ...
结果表明,UV/TiO,光催化体系可以有效去除水体异昧物质2一MIB,紫外光照射60min,对2-MIB的降解率达95%。同时研究了光催化降解体系介质pH,共存腐殖酸(HA)和过硫酸钾(KS:O)对UV/TiO光催化体系降解2-MIB的影响,发现低浓度HA([HA]≤0.5mg/L)可以提高2-MIB降解速率,当HA浓度高于0.5mg/L,2-MIB降解反应受到...
The production of odiferous metabolites, such as 2-methlyisoborneol (MIB), is a major concern for water utilities worldwide. Although MIB has no known biological function, the presence of the earthy/musty taste and odor attributed to this compound result in the reporting of numerous complaints ...
比较了几种常见氧化剂对饮用水中嗅味物质2-甲基异莰醇(2-methylisoborneol,MIB)的氧化去除效果。 2. The relative standard deviation of SPE-GC-MS to determine geosmin and 2-methylisoborneol were 1. 结果显示,采用C18为柱填料、甲醇作为洗脱剂的固相萃取法效果最优,土臭素和2-甲基异莰醇两种嗅味物质测定...
An isotope dilution technique based on purge-and-trap coupled to gas chromatography with mass spectrometric detection were developed and optimized for the trace determination of the typical odorous compounds; Geosmin (GSM) and 2-methylisoborneol (MIB). The selection of quantitative...
2-Methylisoborneol (MIB) is a terpenoid produced as a secondary metabolite by some cyanobacteria and actinomycetes and thus can be present in some drinking water source waters. The removal efficiency, products, and degradation pathway of MIB in drinking water by ozonation were studied. The results...
土霉异味通常是由化合物二甲萘烷醇(geosmin)和2-甲基异茨醇(2-methylisoborneol,2-MIB)所引起。在水生态系统中,部分蓝藻和放线菌是其主要生物源,绝大多数源水... 张婷,李德亮,肖调义 - 中国水产学会学术年会 被引量: 0发表: 2012年 库氏鞘丝藻(yngbya Kuetzingii)二甲萘醇(geosmin)合成相关基因的克隆与特...