己醇

研究了以硫酸氢钠为催化剂，乙酸和正己醇为原料合成乙酸正己酯，并考察了反应条件对酯化率的影响。

This paper studied the synthesis of hexyl acetate with acetic acid and hexyl alcohol as reactants and sodium bisulfate as catalyst .

正己醇处理对草莓果实采后生理和品质的影响

Effect of 1-Hexanol Treatment on Postharvest Physiology and Quality of Strawberry Fruit

再用巯基己醇封闭，然后与目标DNA作用。

Mercapto-hexanol then closed , then the role of the target DNA .

Cu（Ⅱ）络合物催化氧化环己醇的研究

Studies on catalytic oxidation of cyclohexanol by cu (ⅱ) complexes with dioxygen

环己醇和环己酮生产中BI废水的综合利用

Comprehensive Utilization of BI Wastewater from Cyclohexanol and Cyclohexanone Production

Na2WO4·2H2O催化氧化环己醇/环己酮合成己二酸反应的研究

Orthogonal Design and Optimization of Na_2WO_4 · 2H_2O Catalysts for Cyclohexanol / Cyclohexanone to Adipic Acid

在环己烷氧化制环己酮和环己醇的过程中，有一种副产物称为X油，其排出量约占环己酮产量的5%-8%。

During the oxidation of cyclohexane to cyclohexanol and cyclohexanone , about 5 % - 8 % of a by-product called X oil apears .

含铈固体超强酸SO4~（2-）/ZrO2-Ce2O3的制备及对环己醇催化脱水制环己烯的研究

Preparation of Solid Superacid SO_4 ~ ( 2 - ) / ZrO_2-Ce_2O_3 and Its Application to Catalytic Dehydration of Cyclohexanol to Cyclohexene

DH（021）型环己醇脱氢制环己酮催化剂性能研究

Research of Catalytic Performance of DH_ ( 021 ) Catalyst of Cyclohexanol Dehydrogenation to Cyclohexanone

试验表明，BaY催化剂对环己烷氧化有很好的催化活性，优化条件下环己基过氧化氢、环己醇和环己酮的总收率达11.6%。

The results show that BaY has the best catalytic activity , the total yield of cyclohexyl hydroperoxide , cyclohexanol and cyclohexanone under the optimum condition can reach 11.63 % .

通过GC、MS分离鉴定的玉金香挥发性芳香化合物有乙酸乙酯、乙酸丁酯、3-甲基戊酸乙酯、2-甲基2-丙醇、二乙醚、环己醇。

The main volatile compounds of " Yujinxiang " melon were ethyl acetate , butyl acetate , pentanoic acid , 3-methyl , ethyl ester , 2-methyl-2-propanol , diethylether , cyclohexanol .

SO4~（2-）/TiO2-Al2O3催化环己醇分子内脱水反应的研究

Studies on intramolecular dehydration of cyclohexanol by SO_4 ~ ( 2 - ) / TiO_2-Al_2O_3 solid superacid

Brφnsted酸功能化离子液体催化环己醇脱水制备环己烯

Synthesis of Cyclohexene via Cyclohexanol Dehydration Catalyzed by Novel Br φ nsted Acidic Task-specific Ionic Liquids

环己烷氧化反应制备环己醇和环己酮（两者混合物俗称KA油）是工业上的一类重要反应。

Cyclohexane oxidation to produce cyclohexanol / cyclohexanone ( the mixture is so called KA oil ) is an important reaction in industry .

钴取代Dawson型磷钼钒催化氧化环己烷制环己酮和环己醇

Preparation of Cyclohexanol and Cyclohexanone through Oxidation of Cyclohexane Over Cobalt Substitute for Dawson P-Mo-V as Catalyst

本文分别考察了青霉素酰化酶在CTAB/正己醇和CTAB/异辛烷/正己醇两种反胶束体系中不同水含量和pH值对酶活力的影响。

In this paper , the effects of water content , pH value on enzyme activity entrapped in cetyltrimethylammonium bromide ( CTAB ) / n-hexenol or CTAB / isooctane / n-hexenol reversed micelles were investigated , respectively .

用聚乙二醇（PEG-6000），十二烷基硫酸钠（SDS）等作为环己醇液相氧化制己二酸的相转移催化剂；

PEG 6000 and SDS were used phase transfer catalysis agent which cyclohexanol was oxidized to adipic acid in liquid phase .

用固体酸五氧化二铌作酯化催化剂，由苯酐和2－乙基己醇制备了邻苯二甲酸二（2－乙基己酯）（DOP）。

Di ( 2 ethylhexyl ) phthalate ( DOP ) was prepared from phthalic anhydride and 2 ethylhexanol via niobium pentoxide catalyzed esterification .

通过滴定作出TX&100/正己醇/正辛烷/水的部分拟三元相图，在W/O型微乳液的纳米反应器中合成了纳米Gd2O3：Tb~（3+）荧光粉，结构表征证实其为立方氧化钆。

( 1 ) Gd_2O_3 : Tb ~ ( 3 + ) luminescent nanoparticles were prepared in the reverse microemulsions based on triton X-100 / n-hexyl alcohol , n-octane , and water .

其次，本文对铌酸催化环己醇脱水成烯反应作了探索，并与γ-Al2O3进行了比较，发现其催化活性及活性稳定性均优于γ-Al2O-3。

Secondly , the dehydration of cyclohexanol catalyzed by niobic acid in gas-phase was investigated . Compared with r-Al_ ( 2 ) O_ ( 3 ), niobic acid is excellent in catalytic activity and stability .

环己醇脱氢Zn-Ca催化剂的广角X-射线衍射研究

Study on Zinc-Calcium Catalyst for Dehydrogenation of Cyclohexanol by Wide Angle X-ray Diffraction

通过生物和化学的方法将秸秆中纤维素降解并产生五碳糖、六碳糖、甲醇、己醇、CO2、甲烷、氢气等低分子化合物，就能够提高碳氢比并增加能源密度。

The ratio can be improved to increase the energy density from biological and chemical method of decomposing the cellulose in straws into low-molecule compounds such as pentoses , hexoses , methanol , hexanol , CO2 , methane and hydrogen .

以乙酸和环己醇为原料，用不同晶型纳米TiO2制备的SO2-4/TiO2超强酸为催化剂合成乙酸环己酯。

The synthesis of cyclohexyl acetate with acetic acid and cyclohexanol as reactants and solid super acid SO ~ ( 2 - ) _4 / TiO_2 prepared from different crystal forms of nano-sized titanium dioxide as catalysts was studied .

在TritonX-100/正己醇/环己烷/水体系和CTAB/正已醇/水体系的W/O型微乳液中，通过调节几种主要制备参数，制备了系列Au/Fe2O3催化剂。

In Triton X-100 / n-hexanol / cyclohexane / water and CTAB / n-hexanol / water inverse microemulsions , Au / Fe2O3 catalysts were prepared by controlling several major parameters .

制备了H型分子筛HY，Hβ和HM，通过XRD，NH3-TPD和Py-IR对其进行了表征，考察了其对萘与正己醇的烷基化反应的催化性质。

HY , H β and HM zeolites were synthesized and characterized by XRD , NH 3-TPD and Py-IR . Selectively catalytic alkylation of naphthalene with n-hexanol to hexyl-naphthalene over the zeolites has been examined .

对MH再生过程中除油操作、制备新MH、H2O2处理和水洗操作等进行优化后，MH的流失和消耗显著降低，环己醇（NOL）产量上升。

During MH regeneration , the loss and consumption of MH decrease considerably and NOL output increases after optimization of removing oil , preparing new MH , H_2O_2 treating and water washing operation .

负载2－乙基己醇可用NaOH溶液反萃取，反萃取为不均相化学反应过程，NaOH用量和动力学因素是使反萃取完全的重要条件。

Loaded 2 ethylhexanol is back extracted with NaOH solution and the back extraction is a heterogeneous chemical reaction process . The amount of NaOH and kinetics factors will be very important for effective back extraction of theophylline .

采用TritonX-100/正己醇/环己烷/氨水体系配制反相微乳液，在碱性条件下正硅酸乙酯在反相微乳液中发生受控水解，合成了具有无定形结构的球形二氧化硅纳米粒子。

The amorphous sphere silica nanoparticles were produced by hydrolysis of tetraethoxysilane ( TEOS ) under alkalic condition in reverse microemulsion formed by the system of Triton X-100 / hexanol / cyclehexane / amomia water .

在SO2-4/TiO2固体超强酸中引入适量Al2O3，制备成SO2-4/TiO2Al2O3，用于催化环己醇分子内脱水反应。

SO 2 - 4 / TiO 2-Al 2O 3 solid superacid were prepared by incorporation of appropriate amounts of Al 2O 3 into SO 2 - 4 / TiO 2 , and used in the reaction of intramolecular dehydration of cyclohexanol .

以TritonX-100为乳化剂、正己醇为助乳化剂，得到以苯胺盐酸盐为水相、正己烷为分散介质的反向（W/O）微乳液。

The reverse ( W / O ) microemulsions in which aniline chloride is water phase and hexane is oil phase are prepared by use of Triton X 100 as emulsifier and hexanol as assistant emulsifier .