聚对苯二甲酸乙二酯非晶态膜片单轴热——拉伸中的结晶与松弛

用动态力学损耗温度谱作为测试手段,研究了非晶态PET膜片在78—112℃温度范围内的单轴拉伸。实验结果说明,在较低温度下所得结晶的拉伸试样,完全由于应变诱发结晶,发生在应力-应变曲线的屈服后应力开始上升的阶段。在较高温度下(90℃或更高)拉伸可得非晶态而且光学各向同性的试样,是由于分子链的小尺度取向在拉伸过程中已完全热松弛所致,而分子链的大尺度取向要通过高弹态流动而松弛,其速率较慢,用拉伸后试样两端固定时的应力松弛进行了观察。在较低温度下应力松弛后仍为非晶态,在较高温度下应力松弛到起始应力的1O％下才开始结晶。FTIR研究表明在这种状态下的结晶有一结晶诱导期,其时间尺度与应力松弛阶段相当。     

N-二异丙基磷酰基氨基酸的电子电离和快原子轰击质谱的比较

N-二异丙基磷酰基(DIPP)氨基酸的快原子轰击(FAB)和电子电离(EI)质谱都有相似的丢失两分子丙烯和一分子甲酸的碎裂过程.在FAB中,连续失掉两个丙烯,然后脱去甲酸的过程较为有利;在EI中则主要为先脱去甲酸,随后失去丙烯,本文对DIPP-氨基酸的FAB和EI质谱碎裂历程进行了比较,对分子离子峰的形式与碎裂方式的关系进行了讨论.     

脱氢枞酸酯键合硅胶色谱固定相的制备及应用

A dehydroabietic acid glycidyl methacrylate ester (DAGME)-bonded silica stationary phase (Sil-DAGME) was fabricated in this paper. The DAGME was firstly prepared using dehydroabietic acid and glycidyl methacrylate via a ring-opening addition reaction, and then grafted onto the surface of a thiol-functionalized spherical silica by click reaction to obtain the Sil-DAGME. The successful immobilization of DAGME on the silica was confirmed through series of characterizations including Fourier-transform infrared spectroscopy (FT-IR), thermal gravimetric analysis (TGA)and elemental analysis (EA). The chromatographic performance and retention mechanisms of Sil-DAGME were validated using a variety of compounds including alkylbenzenes, Tanaka standard test mixtures, polycyclic aromatic hydrocarbons, phenols and flavonoids. Meanwhile, the Sil-DAG⁃ME exhibits multiple interactions, including hydrophobic, π-π and hydrogen bonding interaction between the stationary phase and the analytes during the separation process due to the co-existing of benzene ring, carbonyl group, hydroxyl group and hydrophobic rigid tricyclic hydrophenanthrene skeleton in the DAGME on the silica surface. Based on synergistic action of multiple retention mechanisms, the probe molecules metioned above achieved ideal resolution and flexible selectivity in separation. In addition, the Sil-DAGME not only exhibited good stability, repeatability and reproducibility with the run-to-run relative standard deviations (RSDs) of 0. 050%-0. 19% (n = 10), the daytoday RSDs of 0. 25%-1. 0% (n = 7), and the column-to-column RSDs of 0. 78%-2. 1% (n = 3) for the retention time, but also showed an excellent separation ability for Yew tree bark extract. In short, the application of dehydroabietic acid in chromatographic separation materials not only provided a new approach for the separation and detection of paclitaxel, but also presented a reference for the design stationary phase using natural product rosin as functional ligand. © 2023, China Association for Instrumental Analysis. All rights reserved.     

电化学法提锂技术的研究进展及展望

随着新能源产业的不断发展,锂资源的需求量急剧增加。我国具有丰富盐湖锂资源,随着技术的革新与产业化的实践,盐湖提锂技术逐渐走向成熟。电化学法提锂作为众多提锂技术中的新秀,因绿色环保、选择性高、低能耗而备受国内外研究者的关注。本文对国内外电化学提锂技术的研究进展进行综述,并对未来电化学提锂技术的发展给出建议与展望。     

Lewis酸催化纤维素制乳酸机理研究

Because fossil fuels are continuously depleted, valorization of biomass into valuable liquid products and chemicals is of great significance yet it remains challenging. Among many biomass-derived products, lactic acid is one of the most important renewable monomers for preparing the degradable polymer polylactic acid. The use of raw biomass to produce lactic acid through catalytic conversion is an attractive approach. In this work, the catalytic reaction performance and mechanism of different Lewis acids (Y³⁺, Sc³⁺, and Al³⁺) for the production of lactic acid from cellulose were investigated in detail by isotopic nuclear magnetic resonance (NMR) and mass spectrometry. The production of lactic acid from cellulose includes tandem and competing reactions. The order of catalytic activity for the one-pot conversion of cellulose into lactic acid is as follows: Y³⁺ > Al³⁺ > Sc³⁺. The main tandem reactions involve the hydrolysis of cellulose into glucose, the isomerization of glucose into fructose (the order of catalytic activity, the same below: Y³⁺ > Al³⁺, Y³⁺ > Sc³⁺), the cleavage of fructose via a retro-aldol reaction to glyceraldehyde (GLY) and 1, 3-dihydroxyacetone (DHA) (Sc³⁺ > Y³⁺ > Al³⁺), and the conversion of DHA or GLY to the final product lactic acid (Al³⁺ > Y³⁺ > Sc³⁺). It was found that the process of glucose isomerization to fructose was the key step to the final selectivity of the tandem reaction of cellulose conversion to lactic acid, and it was clarified that the production of lactic acid from DHA underwent a keto-enol (K-E) tautomerization process rather than a classical 1, 2-shift process. First, DHA was transformed into GLY via the isomerization process, then the adjacent hydroxyl group of GLY was removed in the form of water to produce an α, β-unsaturated species. After that, the α, β-unsaturated species underwent K-E tautomerization to generate unsaturated aldehyde-ketone intermediates. Meanwhile, a molecule of water was added to aldehyde-ketone intermediates to obtain a diol product, the hydrogen atom at the methine position was transferred and the lactic acid was finally obtained through the K-E tautomerization process. The in-depth understanding of the reaction mechanism presented in this work will help to design more selective catalysts for cellulose conversion into value-added oxygen-containing small molecule chemicals.      

大环镍(Ⅱ)配合物与扁桃酸的手性识别

外消旋大环镍(Ⅱ)配合物[Ni (rac-L)](ClO₄)₂分别与l-和d-扁桃酸阴离子在乙腈/水溶液中反应,通过手性识别得到六配位的[Ni (_RR-L)(S-Man)]ClO₄(1)和[Ni (SS-L)(R-Man)]ClO₄(2)对映异构体(L=5,5,7,12,12,14-六甲基-1,4,8,11-四氮杂环十四烷,Man=扁桃酸)。当[Ni (rac-L)](ClO₄)₂与dl-扁桃酸阴离子反应时得到一对对映体等量存在的共聚物,其中大环配体中RR和SS构型分别优先与l-和d-Man^- 配位形成外消旋混合物,反应过程中发生了手性识别现象,每颗晶体均为手性对映体。当[Ni (rac-L)](ClO₄)₂分别与结构类似的dl-2-苯基丙酸和dl-托品酸阴离子反应时,分别得到化合物[Ni (rac-L)(dl-PPA)]ClO₄(3)(PPA=2-苯基丙酸)和[Ni (rac-L)(dl-Tro)]ClO₄(4)(Tro=托品酸)。X射线单晶衍射结果表明,4个配合物中Ni (Ⅱ)离子均与折叠大环配体L的4个氮原子和2个来自羧基与羟基的氧原子(1和2),或羧基氧原子(3和4)顺式配位,形成六配位八面体构型。配合物1和2属于一对对映异构体,分别通过[Ni (_RR-L)(S-Man)]⁺和[Ni (SS-L)(R-Man)]⁺分子间氢键作用形成一维之字形链状结构。配合物1和2的单手性特征与圆二色(CD)谱测定结果一致。     

高比能锂离子电池层状富锂正极材料改性策略研究进展

层状富锂材料具有超过250 mAh∙g⁻¹的高可逆比容量,被认为是下一代高比能锂离子电池最具商业化前景的正极材料之一。然而,层状富锂材料在实际应用之前仍需解决诸多挑战,如高电压氧释放、层状到岩盐相的结构变化、过渡金属离子迁移等结构劣化,并由此带来了较低的初始库伦效率、电压/容量的衰减以及循环寿命的不足。针对以上问题,进行层状富锂材料改性无疑是一种行之有效的方法。本综述全面介绍了层状富锂材料的结构、组分以及电化学性能,在此基础上对材料改性策略进行了系统阐述,详细介绍了体相掺杂、表面包覆、缺陷设计、离子交换和微结构调控等一系列改性策略的现状以及发展趋势,最终提出了高容量和长循环层状富锂材料和高比能锂离子电池的设计思路。     

偏硼酸锂-四硼酸锂熔融-电感耦合等离子体原子发射光谱(ICP-AES)法测定石膏中多组分含量

石膏在我国储量丰富,应用广泛,快速准确分析其成分含量对石膏资源的综合利用具有重要意义。针对酸溶法无法测定SiO2,碱熔法无法测定K2O、Na2O的问题,本文建立一种偏硼酸锂-四硼酸锂熔融-电感耦合等离子体发射光谱法同时测定石膏中CaO、SO3、Al2O3、Fe2O3、MgO、TiO2、K2O、Na2O、SiO2含量。实验优化了熔剂用量、熔融温度,结果表明采用试样与偏硼酸锂-四硼酸锂混合熔剂质量比例1：5,在铂金坩埚中1000 ℃熔融10 min,在超声条件下,于50 mL 10 %盐酸中浸取熔融物,能够有效分解试样而浸取待测组分。向标准溶液系列中加入偏硼酸锂-四硼酸锂-盐酸基体溶液以消除基体对测试结果的影响。各待测组分的校准曲线的相关性系数均大于0.9990,方法检出限在3~292 μg/g范围内;采用实验方法分别对国家一级标准物质GBW03109a、GBW03110和实际样品进行测定,标准物质的5次平行测试的相对标准偏差在0.14 %~8.86 %之间,测定结果的相对误差在0.03~8.75 %之间,测试结果与标准值无显著性差异;实际样品中各成分测定值的RSD（n=5）为0.24~8.80 %。该方法操作简单、准确度高、精密度好、检出限低,可以同时测定石膏中的多组分含量,能够为石膏资源综合利用调查评价提供一定的技术支撑 。     

氧化还原媒介体分子调控锂-硫电池硫正极性能研究进展

锂-硫(Li-S)电池具有较高的理论比容量(约1 675 mAh·g^-1)和能量密度(约2 600 Wh·g^-1),被认为是继锂离子电池之后最有前途的下一代高能量密度电池.Li-S电池在实现产业化之前需要克服硫正极诸多技术瓶颈,主要有硫的导电性差、多硫化物的穿梭效应与硫电极体积膨胀等.本文着重梳理了氧化还原媒介体分子在硫正极改性研究上的进展,并对硫正极的未来发展趋势进行了展望.     

超高效液相色谱-三重四极杆质谱法同时测定化妆品中13种α-羟基酸的含量

提出了超高效液相色谱-三重四极杆质谱法(UHPLC-MS/MS)同时测定化妆品中13种α-羟基酸含量的方法。样品0.2 g经水超声提取30 min(不易分散样品经异丙醇分散均匀后用水超声提取),提取液经离心过滤后采用UHPLC-MS/MS分析,13种目标物在Agilent Zorbax RRHD SB-Aq C₁₈色谱柱上分离,以不同体积比的0.1%(体积分数)甲酸溶液和乙腈混合液为流动相进行梯度洗脱,质谱分析采用电喷雾离子源,负离子、多反应监测模式采集。结果表明：13种α-羟基酸的质量浓度在一定范围内与对应的峰面积呈线性关系,羟基辛酸、二苯乙醇酸、α-羟基癸酸的检出限(3S/N)为0.030μg·g^-1,羟基乙酸、乳酸的检出限(3S/N)为3.0μg·g^-1,其余8种α-羟基酸的检出限均为0.30μg·g^-1。按照标准加入法进行回收试验,回收率为85.1%～114%,测定值的相对标准偏差(n=6)均小于10%。方法用于分析20批样品,α-羟基酸检出总量为20～6 800 mg/100 g,仅有1批...