高效毛细管电泳中的激光光热检测技术

集中介绍了激光光热分析在高效毛细管电泳检测上的应用；分析了各种光热检测构型的特点，阐述了影响光热信号的各种因素；指出了激光光热检测技术在高效毛细管电泳中的应用前景。     

液态金属电极的电化学储能应用

液态金属电极电导率高,电极界面容易构建,在充放电过程中可有效避免电极结构形变、枝晶生长等问题,在储能电池领域具有重要应用价值. 本文主要讨论了液态金属电极在液态金属电池、钠硫电池和ZEBRA电池中的应用进展,重点介绍了液态金属电池关键材料体系、充放电机制及电池构型等,评述了液态金属电极储能应用中涉及的熔盐电解质、固态陶瓷隔膜、多场影响因素等方面的重要研究进展,分析了高温密封、腐蚀防护等关键问题,明确了液态金属电极在储能电池应用中的发展方向.     

Graphene Liquid Marbles as Photothermal Miniature Reactors for Reaction Kinetics Modulation

We demonstrate the fabrication of graphene liquid marbles as photothermal miniature reactors with precise temperature control for reaction kinetics modulation. Graphene liquid marbles show rapid and highly reproducible photothermal behavior while maintaining their excellent mechanical robustness. By tuning the applied laser power, swift regulation of graphene liquid marble’s surface temperature between 21–135 °C and its encapsulated water temperature between 21–74 °C are demonstrated. The temperature regulation modulates the reaction kinetics in our graphene liquid marble, achieving a 12‐fold superior reaction rate constant for methylene blue degradation than at room temperature.     

Cocrystals Strategy towards Materials for Near‐Infrared Photothermal Conversion and Imaging

A cocrystal strategy with a simple preparation process is developed to prepare novel materials for near‐infrared photothermal (PT) conversion and imaging. DBTTF and TCNB are selected as electron donor (D) and electron acceptor (A) to self‐assemble into new cocrystals through non‐covalent interactions. The strong D–A interaction leads to a narrow band gap with NIR absorption and that both the ground state and lowest‐lying excited state are charge transfer states. Under the NIR laser illumination, the temperature of the cocrystal sharply increases in a short time with high PT conversion efficiency (η=18.8 %), which is due to the active non‐radiative pathways and inhibition of radiative transition process, as revealed by femtosecond transient absorption spectroscopy. This is the first PT conversion cocrystal, which not only provides insights for the development of novel PT materials, but also paves the way of designing functional materials with appealing applications.     

Enhanced Conversion Efficiency Enabled by Species Migration in Direct Solar Energy Storage

Solar energy can be stored via either an indirect route in which electricity is involved as an intermediate step, or a direct route that utilizes photogenerated charge carriers for direct solar energy conversion. In this study, we investigate the fundamental difference between the direct and indirect routes in solar energy conversion using a new photoelectrochemical energy storage cell (PESC) as a model device. This PESC centers on a liquid junction that utilizes CH₃NH₃PbI₃ perovskite to drive photoelectrochemical reactions of Benzoquinone (BQ) and Ferrocene (Fc) redox species. The experimental studies show that the equilibrium redox potentials are 0.1 V and −0.78 V (vs Ag/AgNO₃) for Fc⁺/Fc and BQ/BQ^.−, respectively, which would produce a theoretical open-circuit voltage of 0.88 V for the storage device. The physics-based computational analysis shows a relatively flat reaction rate distribution in the electrode for the indirect route; however, in the direct route the photoelectrochemical reaction rate is critically affected by electron concentration due to strong light absorption of the perovskite material, which has been shown to vary by at least 10-fold in the transverse direction across the photoelectrode. The drastic variation of reaction rate in the photoelectrode creates an electric field that is 7.5 times stronger than the bulk electrolyte, which causes the photo-converted reaction product (i. e., BQ^.−) to drift away from the photoelectrode thereby creating a constant reaction driving force. As a result, it has been shown that the intrinsic solar to chemical conversion (ISTC) efficiency improves by ∼40 % for the direct route compared to the indirect route at 0.05 mA/cm².     

高效液相色谱-蒸发光散射检测法分析何首乌中磷脂类化合物

建立了高效液相色谱测定何首乌中磷脂类化合物的新方法.采用Nuclesil100-5色谱柱(250×4.6 mm i.d.5 μm),以甲醇为流动相,流速0.8 mL/min,等度洗脱.蒸发光散射检测器的气体流速1.8 L/min,漂移管温度66℃,进样量15μL.四种磷脂类化合物的线性范围分别为:磷脂酰甘油(PG):0.0388～0.388 mg/mL(r2=0.9991),磷脂酰乙醇胺(PE):0.0500～0.250 mg/mL(r2=0.9996),磷脂酰胆碱(PC):0.0103～0.165 mg/mL(r2=0.9995),溶血磷脂酰胆碱(LPC):0.0103～0.343 mg/mL(r20.9995).该方法应用于首鸟中磷脂类化合物的分析,取得了较好的结果.     

超高效液相色谱-蒸发光散射检测法测定蜂蜜中12种糖组分

建立了蜂蜜中果糖、葡萄糖、蔗糖、松二糖、麦芽酮糖、麦芽糖、曲二糖、异麦芽糖、吡喃葡糖基蔗糖、松三糖、蜜三糖和麦芽三糖含量的超高效液相色谱－蒸发光散射测定方法。试样经去离子水溶解,乙腈定容,用0.22 μm滤膜过滤后,采用Amide色谱柱分离,蒸发光散射检测器检测,外标法定量。在优化实验条件下,12种糖得到良好分离,线性相关系数为0.997 7～0.999 8,果糖和葡萄糖的检测结果与示差折光检测法无显著性差异,其余10种糖的平均回收率为90.0 %～105 %,相对标准偏差为0.70%～5.8%。该方法灵敏度高,准确度高,重复性好,适用于蜂蜜中多种糖组分的同时定量分析。用于72批不同蜜种蜂蜜样品中糖组分的检测,发现中国主要蜜源蜂蜜中普遍含有松二糖、麦芽酮糖、麦芽糖等糖组分。该方法和检测数据可为蜂蜜品质和质量评价提供重要支撑。     

高效液相色谱－蒸发光散射法测定液态乳中乳果糖含量

液态乳中乳糖和乳果糖是同分异构体,因保留特性相似,成为色谱法分离检测乳果糖的难点。目前,虽有多种液相色谱检测乳果糖的报道,但方法在前处理的简便性、色谱柱的适用性及分离效果的稳定性等方面存在不足。该研究建立了高效液相色谱－蒸发光散射（HPLC－ELSD）检测液态乳中乳果糖的方法。采用0.4 mol/L醋酸铵（pH 3.8）沉降蛋白,氨基色谱柱分离,蒸发光散射检测器检测。液态乳中乳果糖与乳糖得到了良好的分离,在1.0～100 mg/L范围内线性关系良好（r2 = 0.998 0）,检出限为15 mg/L,定量下限为50 mg/L,回收率为85.1%～110%,相对标准偏差（RSD）不大于7.5%。该方法操作简单,可在8 min内完成检测,结果重复性好、准确度高,满足液态乳中乳果糖的日常检测要求。     

高效液相色谱-蒸发光散射检测法测定人参根中人参皂苷的含量

应用高效液相色谱-蒸发光散射检测(HPLC/ELSD)系统和微波辅助萃取技术,采用梯度洗脱的方法研究了人参根中人参皂苷的萃取和分离测定;同时研究了人参皂苷含量随人参年龄的变化。结果表明,该方法快速,简单,分离测定准确,可靠。人参皂苷浓度在0.025~0.500 g/L的范围内与信号强度值成线性关系;加样回收率为85%~104%;日内精密度≤2.60%;日间精密度≤6.00%。随着人参年龄的增长,人参根中的人参皂苷含量也增加。     

清开灵注射液HPLC/ELSD指纹图谱建立及质量相关性研究

运用高效液相色谱／蒸发光散射检测器(HPLC／ELSD)建立了复方清开灵注射液的指纹图谱。对其中7种有效成分进行了定量测定,方法学考察结果良好;通过指纹图谱相似度评价软件,对10批清开灵注射液的HPLC／ELSD指纹图谱进行了相似度计算,结果表明：10批样品相似度很好。该方法为中药质量控制提供了一种可以同时实现整体定性、指标成分定量且简便易行的方法模式。     

Design of Functional Carbon Composite Materials for Energy Conversion and Storage

The carbon composite materials have been a research hotspot in the fields of catalysis, energy conversion and so on, because of their features of large structure and morphology variety, good chemical and electrochemical stability, and high electronic conductivity, large specific surface area and rich active sites. This paper summarizes some research progress of carbon composite materials, including assembly methodologies, their structure regulation, properties, and related applications. Moreover, the current challenges and the prospects of these materials are also discussed.     

高效液相色谱-蒸发光散射检测法测定草石蚕根茎中的水苏糖

应用高效液相色谱 蒸发光散射检测法建立了测定草石蚕植物根茎中水苏糖含量的新方法 ,并设计和讨论了 2种从草石蚕根茎干粉中提取水苏糖的工艺方法。采用BondapakNH2 色谱柱 (3 0 0mm× 3 .9mmi.d .) ,流动相为甲醇 水 (80∶2 0 ,V V) ,流速 1 .0mL min,柱温为室温 ;蒸发光散射检测器漂移管温度 40℃ ,载气N2 流速 4.0L min。在上述条件下测得水苏糖在 1 .0 2～ 1 2 .2 2 μg范围内线性关系良好 (r=0 9995 ) ,检出限达到 0 .1 0 μg,平均加样回收率为 91 .6%。 2种不同提取方法的测定结果 :水苏糖含量分别为 2 9.8%和 2 5 .2 % ,纯度为 63 .76%和 88.3 5 %。该方法简便快捷 ,重现性和准确度良好 ,结果准确可靠 ,为实际样品的测定提供了科学依据。     

液相色谱/蒸发光散射测定转基因烟草提取液中的海藻糖

 采用乙二胺动态修饰硅胶柱分离、蒸发光散射检测器测定了转基因烟草提取液中的糖。 4种糖的峰面积标准曲线在 10 0mg/L～ 15 0 0mg/L范围内均具有良好的线性关系。所建立的方法对果糖、葡萄糖、蔗糖、海藻糖的检测下限分别为 10mg/L ,2 0mg/L ,10mg/L和 10mg/L。     

高效液相色谱/蒸发光散射检测法同时测定饲料中12种甜味剂

建立了饲料中鼠李糖、木糖、果糖、葡萄糖、甜菊双糖苷、蔗糖、麦芽糖、乳糖、蔗果三糖、棉籽糖、蔗果四糖、水苏糖共12种甜味剂的高效液相色谱同时分离检测方法。采用XB-NH2柱分离,以乙腈-水为流动相梯度洗脱,蒸发光散射检测器进行测定。结果表明,12种甜味剂在0.05~5 g/L范围内均具有良好的线性关系,相关系数为0.996 3~1.000 0,检出限不大于0.04 g/L,方法的回收率为86.6%~112%,相对标准偏差(RSD)为0.5%~6.7%。该方法简单快速,定量准确可靠,适用于饲料中甜味剂的日常检测。     

反相高效液相色谱-蒸发光散射检测法测定安宫牛黄胶囊中的胆酸

应用反相高效液相色谱-蒸发光散射检测法对安宫牛黄胶囊中的胆酸含量进行了测定。色谱柱用JASCO C18柱(250 mm×4.6 mm i.d.,5 μm),流动相为甲醇-0.1%(体积分数)醋酸水溶液(体积比为9∶1),流速1.0 mL/min,柱温为室温;蒸发光散射检测器漂移管温度40 ℃,载气（N2)流速4.0 L/min。在上述条件下测得胆酸的进样量为0.50-5.02 μg时线性关系良好(r=0.999?3),最低检测限达到0.05 μg,平均加样回收率为97.1%。该方法快速简捷,精密度高,重现     

超高效液相色谱-蒸发光散射检测法同时测定重楼消瘤方中5种皂苷类成分含量

建立了同时测定抗肿瘤中药复方——重楼消瘤方中重楼皂苷Ⅰ、重楼皂苷Ⅱ、重楼皂苷Ⅶ、柴胡皂苷a、柴胡皂苷d 5种皂苷类成分含量的超高效液相色谱-蒸发光散射检测(UPLC-ELSD)法。复方制剂经甲醇提取,采用Waters Cortecs UPLC C₁₈(150 mm×2.1 mm,1.6μm)色谱柱分离,乙腈-水为流动相进行梯度洗脱,蒸发光散射检测器进行检测,以外标法定量。结果显示,5种皂苷类成分的分离度良好,分别在7.1174～177.94μg/mL、 9.4072～235.18μg/mL、 8.8726～221.82μg/mL、 7.4862～187.15μg/mL、9.761 3～244.03μg/mL范围内线性关系良好,相关系数(r)为0.999 2～0.999 8,检出限为0.7～1.0μg/mL,定量下限为1.8～2.4μg/mL;平均回收率分别为93.9%、103%、102%、104%、105%,相对标准偏差(RSD)分别为3.8%、4.0%、4.2%、3.6%、3.2%。该方法简便、快速、准确,可同时对重楼消瘤方中的5个皂苷类成分进行分析,能有效地消...     

Determination of Polysaccharide Hydrolyzates in Chinese Herbal Medicine by UltraHigh-Performance Liquid Chromatography-Quadrupole Time-of-Flight Mass Spectrometry and Evaporative Light Scattering Detection

Ultrahigh-performance liquid chromatography coupled with evaporative light scattering detector was used to optimize acid hydrolysis conditions of polysaccharides from Dendrobium candidum. The optimized conditions were the concentration of H₂SO₄, 0.4?M, hydrolysis temperature, 90°C, and hydrolysis time, 1?h. Ultrahigh-performance liquid chromatography-quadrupole time-of-flight mass spectrometry was used to obtain the total ion current chromatograms and determine the hydrolyzates of polysaccharides, such as monosaccharides, oligosaccharides, and some low-molecular weight polysaccharides from D. candidum, Cordyceps sinensis, and Ganoderma atrum. The accurate mass data were analyzed by chemometric tools, including an unsupervised analytical method, principal component analysis (one-way ANOVA, p?D. candidum polysaccharides from different locations and grades can be discriminated effectively by the principal component analysis scores. The quality predictive models showed a high value with a low prediction error calculated from both validation and training sets.     

2020 Roadmap on Carbon Materials for Energy Storage and Conversion

Carbon is a simple, stable and popular element with many allotropes. The carbon family members include carbon dots, carbon nanotubes, carbon fibers, graphene, graphite, graphdiyne and hard carbon, etc. They can be divided into different dimensions, and their structures can be open and porous. Moreover, it is very interesting to dope them with other elements (metal or non‐metal) or hybridize them with other materials to form composites. The elemental and structural characteristics offer us to explore their applications in energy, environment, bioscience, medicine, electronics and others. Among them, energy storage and conversion are extremely attractive, as advances in this area may improve our life quality and environment. Some energy devices will be included herein, such as lithium‐ion batteries, lithium sulfur batteries, sodium‐ion batteries, potassium‐ion batteries, dual ion batteries, electrochemical capacitors, and others. Additionally, carbon‐based electrocatalysts are also studied in hydrogen evolution reaction and carbon dioxide reduction reaction. However, there are still many challenges in the design and preparation of electrode and electrocatalytic materials. The research related to carbon materials for energy storage and conversion is extremely active, and this has motivated us to contribute with a roadmap on ‘Carbon Materials in Energy Storage and Conversion’.     

离子的胶体状态与其电化学储能极限

阳离子氧化还原化学是电化学储能技术中最核心的储能机理,如何高效快速利用氧化还原活性阳离子是发展兼具高功率密度与高能量密度储电技术的关键。 处于胶体状态的阳离子可形成热力学平衡态和非平衡态,具有高反应活性和低离子迁移势垒,展现出独特的电化学特性。 本文着重介绍氧化还原活性阳离子的胶体状态与其在电化学储能上的应用,并从热力学和动力学方面阐述其储能机理,以及活性胶体离子电极和超级电容电池的构筑。 利用胶体的高比表面积、高离子吸附能力和荷电离子梯度分布等特性,创造性地构筑胶体超级电容电池,解决了现有电化学储能电极材料体系中高容量与高功率不能兼具的问题,同时开拓了胶体体系新的应用方向。