高效阴离子交换色谱在易极化阴离子痕量分析中的应用

以45 mmol/L的 NaOH溶液作淋洗液,采用强亲水性的IonPac AS16阴离子交换分析柱和脉冲安培检测器,在15 min内分离检测了Br-,S2O2-3,I-和SCN-4种易极化阴离子,检测限(以3倍信噪比计)分别为0.5,0.2,0.05和2 μg/L (进样25 μL)。痕量离子的标准溶液平行9次进样测定的相对标准偏差为0.8%～3.7%。而在相同的色谱条件下,抑制型电导检测器对上述4种阴离子的检测限分别为1,1,2和10 μg/L,平行9次进样测定的相对标准偏差为0.9%～4.7%。通过实验比较可知,脉冲安培检测器的灵敏度是抑制型电导检测器的2～40倍。在测定上述易极化阴离子时,脉冲安培检测器具有选择性强、精密度好和灵敏度高等优点。     

高效阴离子交换色谱-电化学法测定酱油中的氨基酸

采用高效阴离子交换色谱-电化学检测器分离并测定了18种常见氨基酸. 实验首先对酱油样品进行了简单前处理, 然后以一定浓度的NaOH和NaAc溶液为淋洗液, 选择合适的梯度淋洗条件, 使18种氨基酸在阴离子交换色谱柱上实现良好地分离, 并用脉冲安培检测器进行了测定. 氨基酸的检出限为1.7～20.0 μg/L, 样品加标回收率在85%～108%范围内. 方法灵敏度高, 操作简单, 重现性好, 不需要繁琐的柱前或柱后衍生操作. 已应用到生抽和老抽酱油调味料产品中氨基酸的测定.     

阴离子交换色谱-积分脉冲安培检测法分离测定烟草料液中的山梨醇和糖

采用阴离子交换色谱-积分脉冲安培检测法分离测定了烟草料液中山梨醇、葡萄糖、果糖、蔗糖和麦芽糖,研究了山梨醇和糖在阴离子交换色谱中的保留行为。采用优化的水和氢氧化钠二元梯度淋洗条件,CarboPac PA10阴离子交换色谱柱进行分离,积分脉冲安培检测器检测一次进样测定烟草料液样品中的山梨醇、葡萄糖、果糖、蔗糖和麦芽糖。各组分在测试条件下线性关系良好,线性范围为0.005～20 mg/L,检测限为0.2～1.0 μg/L,加标回收率为95.1%~102.4%,相对标准偏差为1.2%～1.9%。     

二维阀切换离子色谱法测定海带中游离氨基酸

建立一种测定海带中游离氨基酸的阀切换高效阴离子交换色谱耦合脉冲安培检测器法。采用一根阳离子交换柱对氨基酸进行富集,而后经阀切换至氨基酸分析柱Amino Pac~PA-10(250 mm×2 mm)上分离并进入安培检测器检测。在最佳分离条件下,20种氨基酸的质量浓度在0.1~20.0 mg/L范围内与其色谱峰面积线性关系良好,线性相关系数r~20.99,20种氨基酸的检出限为0.01 mg/L,加标回收率为83.12%~117.34%,测定结果的相对标准偏为1.02%~13.05%(n=8)。该方法样品前处理简单,无基底杂质干扰,适用于海带样品中游离氨基酸的测定。     

阴离子交换色谱-脉冲安培法检测味精中的硫化物

建立了阴离子交换色谱柱分离、脉冲安培检测器测定味精中微量硫化物的方法。味精样品经2 g/L氢氧化钠溶液直接溶解并过滤后直接进样,硫离子与高浓度谷氨酸等阴离子在IonPac AS7阴离子色谱柱(250 mm×4 mm)上可实现较好的分离。以100 mmol/L氢氧化钠-500 mmol/L醋酸钠-0.5%乙二胺为淋洗液等度淋洗,6 min内可完成一次样品测定。脉冲安培检测器检测硫离子的检出限(25 μL进样,信噪比为3)为0.3 μg/L,并具有较宽的线性范围(0.001～1 mg/L),样品加标回收率为94.2%～99.0%。应用该方法检测99%味精、增鲜味精和加盐味精样品中的硫化物,结果表明该方法具有简便快捷、高选择性、高灵敏度等优点。     

缬氨酸产品中微量氨基酸杂质的高效阴离子交换色谱-积分脉冲安培测定

在优化实验条件下,建立了高效阴离子交换色谱-积分脉冲安培检测法分离测定缬氨酸产品中微量氨基酸杂质的方法。研究了氨基酸的阴离子交换色谱分离和积分脉冲安培检测。采用优化的水、0.25 mol/LNaOH、1.0 mol/L NaAc三元梯度淋洗条件及35℃柱温实现了19种氨基酸的分离。在最佳条件下,氨基酸的检出限(S/N=3)为3.1~67.1 nmol/L,线性范围约为3个数量级。样品加标回收率为90%~96%。方法可以推广至其它氨基酸产品中微量氨基酸杂质的测定。     

高效阴离子交换色谱法检测酱油中的单糖及双糖

建立了高效阴离子交换色谱-脉冲安培检测法(HPAEC-PAD)测定酱油中阿拉伯糖、半乳糖、葡萄糖、蔗糖、木糖、甘露糖和果糖的方法.采用70％乙醇作为蛋白沉淀剂处理酱油样品,以Dionex CarboPac PA20阴离子交换柱为色谱柱,0.25 mol/L NaOH-水为流动相进行梯度洗脱,考察了色谱柱温度和NaOH浓度对各种糖分离的影响,确定最佳柱温为20℃,NaOH浓度为5.0 mmol/L,7种糖可在20 min内实现基线分离.7种糖的检出限(25 μL进样,S/N=3)为2.0～8.0 μg/L,线性范围为0.1～80 mg/L,r2大于0.999.酱油样品测定的相对标准偏差为1.4％～4.0％,加标回收率为92％～104％.该方法简便易行,灵敏度高,重现性好,适用于酱油样品中糖组分的分析.     

离子交换色谱法测定葡萄糖氧化反应液中的葡萄糖和葡萄糖酸

建立了一种利用阴离子交换色谱分离,以积分脉冲安培检测器同时测定葡萄糖氧化反应液中葡萄糖和葡萄糖酸的方法。采用Ion Pac AS11–HC阴离子交换柱,以5.0 mmol/L KOH溶液作为淋洗液,等度洗脱,流量为1.0m L/min,柱温为30℃,进样体积为25μL。葡萄糖和葡萄糖酸测定结果的相对标准偏差分别为0.66%,1.32%(n=6),线性相关系数分别为0.989 3,0.992 9,平均加标回收率分别为99.50%,109.0%。该方法可用于葡萄糖氧化反应液中葡萄糖和葡萄糖酸的同时测定。     

高效阴离子交换色谱-脉冲安培检测器测定工业醋酸中痕量碘离子的方法

用一次性银电极高效阴离子交换色谱-脉冲安培检测器(HPAEC-PAD)研究了36%HAc中痕量碘离子的测定方法。用5 mL分析纯HAc(36%,不含碘离子)配制碘离子的标准工作溶液,然后加入一定体积的质量分数为25%NaOH溶液中和HAc,待溶液冷却至室温后用Milli-Q水定容至10 mL,最后用高效阴离子交换色谱-脉冲安培检测器分离测定,得到碘离子的标准工作曲线。工业醋酸样品经同样处理步骤。方法的检出限为0.06μg/L(3倍基线噪音),定量限为0.2μg/L(10倍基线噪音)。10μg/L碘离子的加标回收率为105%,5次连续测定的相对标准偏差为3.4%。     

电化学检测-色谱法测定食醋中氨基酸含量

采用高效阴离子交换色谱及脉冲安培检测法分离并测定了食醋中多种氨基酸.用不同比例的氢氧化钠溶液、乙酸钠溶液及水组成的混合溶液作为淋洗液,以梯度淋洗方式将分离柱上的氨基酸先后洗脱并测定.用提出的方法分析了4种不同品牌的食醋样品,共测得18种氨基酸,此方法毋需柱前或柱后衍生化操作,对18种氨基酸的检出限在1.7～20.0 μg·L-1范围内.根据测定每种氨基酸中所得保留时间值算得的相对标准偏差(n=6)均小于1.2%,作标准加入法测定了各氨基酸的回收率,其值在849/6～108%之间.     

二氧化碳和丙烯直接合成甲基丙烯酸的NiPMo/TiO2催化剂的研究

用溶胶-凝胶法以磷钼酸(MPA)的镍盐溶液水解钛酸四丁酯制备了NiPMo/TiO2催化剂.使用ICP、 XRD、 TG-DTA、 IR、 TPD-MS和微反应技术研究了催化剂的化学组成、热稳定性、化学吸附性质和催化反应性能.杂多钼酸盐与TiO2通过O2-在TiO2表面发生了键合.在623 K下,杂多阴离子仍保持原有的Keggin结构.CO2在Lewis酸位Ni(Ⅱ)和Lewis碱位Ni-O-Mo的桥氧协同作用下生成CO2卧式吸附态Ni(Ⅱ)←O-(CO)←(O--Ni).丙烯有多种吸附态在催化剂上吸附.在563 K、 1 MPa和空速1500 h-1的反应条件下,丙烯的摩尔转化率为3.2%,产物MAA选择性为95%.     

Toward new camptothecins. Part 6: Synthesis of crucial ketones and their use in Friedländer reaction

In the context of the preparation of camptothecin and luotonin A analogs, the synthesis of some key keto-precursors and their use in Friedländer condensation are described. This paper also focuses on the stability of these keto intermediates and emphasizes the major differences between indolizinones and pyrroloquinazolinones series. Noteworthy is also the report of some original structures isolated as by-products of some experiments.     

CoFe2O4自形成磁性液体场致结构化对磁化的影响

The Langevin paramagnetic theory can’t describe the relation between magnetization of ferrofluids and applied magnetic field. The structuralization of ferrofluids, which is considered the main influence factor of the magnetization, is regarded. The part of magnetization works is deposited when the structure is forming. This action influences the magnetization of ferrofluids directly or indirectly. On the base of the “compressing” model, the Langevin function that usually describes the magnetization of ferrofluid is modified, and a well-fitted curve is obtained. An equation of the relation between the equivalent volume fraction after being “compressed” and the intensity of magnetic field is discovered, which approximately describes the process of magnetization. The relation between the approximate initial susceptibility and the volume fraction can be obtained from modified formula.     

Highly regioselective Buchwald–Hartwig amination at C-2 of 2,4-dichloropyridine enabling a novel approach to 2,4-bisanilinopyridine (BAPyd) libraries

The highly regioselective Buchwald–Hartwig amination at C-2 of the cheap and readily accessible reagent, 2,4-dichloropyridine with a range of anilines and heterocyclic amines is described. This new methodology is robust and provides a facile access to 4-chloro-N-phenylpyridin-2-amines on 0.25 mol scale. These intermediates undergo a further Buchwald–Hartwig amination at higher temperature to enable rapid exploration of the chemical space at C-4 and to provide a library of 2,4-bisaminopyridines.     

KMnO4-mediated oxidative CN bond cleavage of tertiary amines: Synthesis of amides and sulfonamides

KMnO₄-mediated oxidative CN bond cleavage of tertiary amines producing secondary amine was introduced, which was trapped by electrophiles (acyl chloride and sulfonyl chloride) to form amides and sulfonamides. The reaction could take place at mild condition, tolerating a wide range of function groups and affording products in moderate to excellent yields.     

Chemistry of heterocyclic compounds at the A. E. Favorsky Irkutsk Institute of Chemistry, Siberian Branch of the Russian Academy of Sciences, over 50 years (Review)

The review contains a concise historical account and information on the most significant researches undertaken by the staff at the A. E. Favorsky Irkutsk Institute of Chemistry, Siberian Branch of the Russian Academy of Sciences on the Chemistry of Heterocyclic Compounds. Dedicated to Academician of the Russian Academy of Sciences B. A. Trofimov on his 70th jubilee. Translated from Khimiya Geterotsiklicheskikh Soedinenii, No. 10, pp. 1443–1502, October, 2008.     

Sulfur-directed metal-free and regiospecific methyl C(sp3)–H imidation of thioanisoles

Regiospecific and direct imidation of the methyl C(sp³)–H bond of thioanisoles is realized under mild and metal-free conditions with N-fluorobis(benzenesulfonyl)imide as an oxidant and nitrogen source. Proposed mechanism suggests that thionium ion intermediates and a Pummerer-type reaction are involved. The imidation has advantages such as high step-economy, excellent functionality tolerance, and regiospecificity, giving structurally diverse imidation products.     

Synthesis of 1-benzyloxypyrazin-2(1H)-one derivatives

Different approaches for the synthesis of 1-benzyloxypyrazin-2(1H)-one derivatives from simple amino acids have been investigated. A library of 33 precursors for the preparation of N-hydroxy pyrazinones was obtained in moderate to good yields.     

Selective syntheses of 2H-1,3-oxazines and 1H-pyrrol-3(2H)-ones via temperature-dependent Rh(II)-carbenoid-mediated 2H-azirine-ring expansion

The Rh(II)-catalyzed reaction of 2-carbonyl-substituted 2H-azirines with ethyl 2-cyano-2-diazoacetate or 2-diazo-3,3,3-trifluoropropionate provides an easy access to 2H-1,3-oxazines and 1H-pyrrol-3(2H)-ones. These compounds can be selectively prepared from the same starting material using temperature as the only varied parameter. The 2-azabuta-1,3-diene intermediate, a common precursor for both heterocyclic products, isomerizes into 2H-1,3-oxazine under kinetic control, while 1H-pyrrol-3(2H)-one is the sole product of the reaction at elevated temperatures. According to DFT-calculations a one-atom oxazine ring contraction involving ring-opening to a 2-azabuta-1,3-diene intermediate, followed by a 1,5- and 1,2-prototropic shift leads to the consecutive formation of imidoylketene and azomethine ylide, which then further undergo cyclization to the pyrrole derivative.