硫化物/Ru(Ⅱ)结合物复合敏化TiO_2纳米多孔膜

用光电化学方法研究了Cds、Pbs和RuL2（NCS）2（L＝2.2′-bipydine-4.4′-dicarboxylicacid）复合敏化TiO2。纳米晶电极的光电化学行为．结果表明，采用复合敏化比用rul（Ⅱ）络合物单独敏化TiO2。纳米晶电极效果好，大大提高了光电转换效率．主要原因是采用复合敏化，可防止TiO2导带上由光注入产生的电子的反向转移，避免了电子的损失．     

高效液相色谱-电化学检测法测定鼠脑微透析液中谷胱甘肽和半胱氨酸

采用高效液相色谱法,用电化学检测手段成功地测定了沙土鼠脑纹状体微透析液内的谷胱甘肽（ＧＳＨ）和半胱氨酸（Ｃｙｓ）。检测前用电化学自清洗方式能有效地提高玻璃碳电极的检测水平,使其具有较好的重现性和回收率。Ｃｙｓ和ＧＳＨ的回收率分别为９１．４％和８７．３％。电化学检测的工作电压为０．９Ｖ,用外标法定量。由微透析探针获取的纹状体透析液Ｃｙｓ和ＧＳＨ的浓度分别为６８．５９和６５．５４ｎｍｏｌ／Ｌ,验证了方法的实用性和可靠性。     

多检测GPC/SEC技术在高分子表征中的应用Ⅳ.氘化高分子的溶液性质

采用体积排斥色谱法／ 示差折光指数／ 直角激光光散射／ 示差粘度三检测联用技术表征了氘化聚苯乙烯、聚苯乙烯和氘化聚苯乙烯－ 聚异戊二烯。结果表明,在θ条件下,虽然氘化聚苯乙烯的化学依赖性常数υＴ,ＤＰＳ比聚苯乙烯的化学依赖性常数υＴ,ＰＳ大,但２５ ℃时在四氢呋喃中,氘化聚苯乙烯的分子尺寸仍小于聚苯乙烯的分子尺寸。由于嵌段共聚物的淋洗体积随组成变化,所以用传统的ＳＥＣ／ＲＩ得不到准确的分子量。经比较膜渗透、小角激光光散射和基质辅助激光脱吸与离子化时间飞行质谱等的实验结果,证明体积排斥色谱法／ 示差折光指数／ 直角激光光散射／ 示差粘度三检测技术能准确地得到氘化二嵌段共聚物的分子量以及其它重要信息。     

梳形支化聚苯乙烯模型化合物的合成及表征

本文用阴离子聚合的聚苯乙烯进行氯甲基化,再将此带有活泼氯的甲基化聚苯乙烯作为主链与活性聚苯乙烯阴离子偶合接枝,制备了12个具有等长度支链沿主链无规分布的、结构明确的梳形聚苯乙烯模型化合物,并用GPC—粘度计联用装置对之进行了表征.     

白酒中游离有机酸的定量测定

本文介绍了一种简单、准确测定白酒中游离有机酸的方法。酒样经中和、浓缩后,未经衍生直接注入毛细管色谱柱,经气相色谱-质谱鉴定并采用三种内标物定量,可准确测定白酒中C2～C18的二十种游离脂肪酸及三种苯羧酸,结果重现性良好。     

肺部疾患与微量元素

综述了肺部疾病与微量元素之间的关系。     

Solid state reactions of nitrogenous heterocyclic compounds (II)

Solid state Michael addition reaction of indole with α, β-unsaturated carbonyl compounds was carried out, by which a series of compounds containing three different heterocyclic groups binding to one carbon atom were ob-tained. In the presence of Lewis acid, indole could undergo the solid state condensation reaction with aromatic ketones and aldehydes or quinones. The solid state reaction showed higher selectivity and yield than solution reaction. The structures of products were identified by IR,¹H NMR, MS. elemental analysis and X-ray crystal analysis. The reac-tion mechanism was also proposed. Project supported by the National Natural Science Foundation of China     

Production of 2,3- butanediol from pretreated corn cob byKlebsiella oxytoca in the presence of fungal cellulase

A simple and effective method of treatment of lignocellulosic material was used for the preparation of corn cob for the production of 2,3-butanediol byKlebsiella oxytoca ATCC 8724 in a simultaneous saccharification and fermentation process. During the treatment, lignin, and alkaline extractives were solubilized and separated from cellulose and hemicellulose fractions by dilute ammonia (10%) steeping. Hemicellulose was then hydrolyzed by dilute hydrochloric acid (1%, wJv) hydrolysis at 100°C at atmospheric pressure and separated from cellulose fraction. The remaining solid, with 90% of cellulose, was then used as the substrate. A butanediol concentration of 25 g/L and an ethanol concentration of 7 g/L were produced byK. oxytoca from 80 g/L of corn cob cellulose with a cellulase dosage of 8.5 IFPU/g corn cob cellulose after 72 h of SSF. With only dilute acid hydrolysis, a butanediol production rate of 0.21 g/L/h was obtained that is much lower than the case in which corn cob was treated with ammonia steeping prior to acid hydrolysis. The butanediol production rate for the latter was 0.36 g/L/h.