Study on catalyst effective factor of the cooxidation of mixed thiols in gas-liquid-solid reaction system;
混合硫醇催化共氧化反应过程催化剂的有效因子研究
Influence of Electron Transfer on Structure of Octadecanethiol Self-assembled Monolayer;
电子传输过程对硫醇自组装单层膜结构的影响
Study on Adsorption Structure of Thiol Molecules on Au(111) Surface by DFT Method;
硫醇分子在Au(111)表面吸附结构的DFT研究
Sorption of mercaptan in kerosene onto adsorbents;
负载型吸附剂对煤油中硫醇的脱除作用
Study on the Quantitative Structure-Chromatographic Retention Indices Relationships of Hydrocarbons,Aldehydes,Ketones and Mercaptans;
碳氢化合物、醛、酮和硫醇的定量结构-色谱保留指数相关性研究
The Preparation of Mercaptan-Mercury(Ⅱ) Chemically Modified Carbon Paste Electrode and the Study of Its Cyclic Voltammetry Behavior;
3,6-二氧杂-1,8-辛二硫醇-汞(Ⅱ)配合物修饰碳糊电极的制备及循环伏安行为研究
Progress in Michael Addition Reaction between Thiols and α,β-unsaturated Carbonyl Compounds;
硫醇与α,β-不饱和羰基化合物的Michael加成反应的研究进展
The surface-enhanced Raman scattering spectroscopy(SERS) analysis verified that a series of hydroxyl-substituted alkanethiols with different alkyl chain lengths chemisorbed onto the Ag-plated carbon fibers and formed a stand-up phase.
表面增强拉曼散射光谱(SERS)分析证实了一系列不同链长的羟基取代烷基硫醇化学吸附在镀银的碳纤维表面,并形成了竖直取向的自组装膜结构。
Twelve α-alkylthio-2-butanones(Ⅱ) were synthesized by oxidation of β-alkylthio alcohols(Ⅰ),which were prepared through the reactions of epoxybutane with various thiols.
用硫醇与环氧丁烷发生开环反应得到β 烷硫基醇类化合物(Ⅰ),再经Swern氧化反应,合成了12种α 烷硫基 2 丁酮类化合物(Ⅱ),两步反应收率都大于70%。
Study of Mercaptans and Isoprene Thioetherfication Reaction on Nickel Catalyst;
镍基催化剂上硫醇与异戊二烯硫醚化反应的研究
Aiming at the ineligible question of mercaptans of sweetening gasoline on FCCU(II) in the refinery of Luoyang Division during the process of sourcrude refining, the infection factors were analysed.
在加工含硫原油过程中 ,针对二套催化裂化汽油硫醇超标问题 ,分析了其影响因素 ,提出了相应的对
Based on the measuring of sensitivity of Doctor test for mercaptans and their mixtures, the mercaptan distributions in FCC gasoline before and after sweetening were analysed through rectification.
在对硫醇及混合硫醇的博士试验灵敏度进行测定的基础上,通过精密分馏,分析了催化裂化(FCC)汽油脱臭前后硫醇的分布,同时考察了过氧化物对博士试验的影响,找到了FCC汽油博士试验不合格的原因是高碳硫醇。
Study on removal rate of methyl mercaptan and ethanethiol by bio-trickling filter;
生物滴滤塔降解甲硫醇和乙硫醇的速率研究
The deodorizing effect of tea functional ingredients on methyl mercaptan (CH3SH) was studied in this investigation.
就茶叶功能成份对主要恶臭成分甲硫醇的去除效果进行了研究,结果表明:绿茶水提取物,儿茶素,EGCG对甲硫醇的去除效果不明显,而茶黄素则表现出较强的活性;在pH10的碱性条件下,1mg含量为40%的茶黄素对甲硫醇的最大去除量为0。
Strain Jll screened out from different odor origins could efficiently remove methyl mercaptan(MM).
以低浓度甲硫醇臭气的生物降解为研究对象,从不同的菌源中筛选得到一株能高效降解甲硫醇的菌株。