Highly dispersed MgInCe-mixed metal oxides catalyzed direct carbonylation of glycerol and CO_(2)into glycerol carbonate

Glycerol carbonate,an important glycerol value-added product,has been widely used as an active intermediate and inert solvent in the synthesis of cosmetics,detergents,chemical intermediates,polymers,and so on.The direct carbonylation from glycerol with CO_(2)is considered a promising route,but still tough work due to the thermodynamic stability and the kinetic inertness of CO_(2).In this work,highlyselective direct carbonylation of glycerol and CO_(2)into glycerol carbonate has been achieved over highly dispersed MgInCe-mixed metal oxides(MgInCe-MMO),which were prepared through the topological transformation derived from the MgInCe-layered double hydroxides(MgInCe-LDHs).By precisely modulating the surface basic-acidic properties and the oxygen vacancies,an efficient carbonylation of glycerol with CO_(2)has been achieved with a selectivity of up to>99%to glycerol carbonate.Deep investigation into the synergistic catalysis of base-acid sites and oxygen vacancies has been clarified.

Layer-by-layer fabrication of montmorillonite coating immobilizing Cu_(2)O nanoparticles for continuously catalyzing glycerol to dihydroxyacetone

Microreactors are increasingly used for green and safe chemical processes owing to their benefits of superior mass and heat transfer,increased yield,safety,and simplicity of control.However,immobilizing catalysts in microreactors remains challenging.In this investigation,a technique for creating Cu_(2)O/montmorillonite catalyst coating,using electrostatic attraction for layer-by-layer self-assembly,was proposed.The montmorillonite film's morphology and thickness could be efficiently regulated by adjusting the degree of exfoliation and surface charge of montmorillonite,alongside layer-by-layer coating times.The Cu_(2)O nanoparticles were immobilized using the flow deposition approach.The resulting Cu_(2)O@montmorillonite-film-coated capillary microreactor successfully transformed glycerol into dihydroxyacetone.The conversion of glycerol and product selectivity could be controlled by adjusting the molar ratio of reactants,temperature,residence time,and Cu_(2)O loading.The maximum glycerol conversion observed was 47.6%,with a 27%selectivity toward dihydroxyacetone.The study presents a technique for immobilizing montmorillonite-based catalyst coatings in capillary tubing,which can serve as a foundation for the future application of microreactors in glycerol conversion.

Complete kinetic model for esterification reaction of lauric acid with glycerol to synthesize glycerol monolaurate

Glycerol monolaurate(GML)is a widely used industrial chemical with excellent emulsification and antibacterial effect.The direct esterification of glycerol with lauric acid is the main method to synthesize GML.In this work,the kinetic process of direct esterification was systematically studied using p-toluenesulfonic acid as catalyst.A complete kinetic model of consecutive esterification reaction has been established,and the kinetic equation of acid catalysis was deduced.The isomerization reactions of GML and glycerol dilaurate were investigated.It was found that the reaction was an equilibrium reaction and the reaction rate was faster than the esterification reaction.The kinetic equations of the consecutive esterification reaction were obtained by experiments as k_(1)=(276+92261Xcat)exp(-37720/RT)and k_(2)=(80+4413Xcat)exp(-32240/RT).The kinetic results are beneficial to the optimization of operating conditions and reactor design in GML production process.

Understanding the catalytic performance and deactivation behaviour of second-promoter doped Pt/WO_(χ)/γ-Al_(2)O_(3) catalysts in the glycerol hydrogenolysis for selective and cleaner production of 1,3-propanediol

The selective aqueous-phase glycerol hydrogenolysis is a promising reaction to produce commercially useful 1,3-propanediol(1,3-PDO).The Pt-WOx bifunctional catalyst can catalyse the glycerol hydrogenol-ysis but the catalyst deactivation via sintering,metal leaching,and coking can predominantly occur in the aqueous phase reaction.In this work,the effect of reaction temperature,pressure and second promoter(Cu,Fe,Rh,Mn,Re,Ru,Ir,Sn,B,and P)on catalytic performance and deactivation behaviour of Pt/WOx/-Al2O3 was investigated.When doped with Rh,Mn,Re,Ru,Ir,B,and P,the second promoter boosts catalytic activity by promoting great dispersion of Pt on support and increasing Pt surface area.The increased Bronsted acid sites lead to selective synthesis of 1,3-PDO than 1,2-propanediol(1,2-PDO).The characterization studies of fresh and spent catalysts reveal that the main cause of catalyst deactivation is the Pt sintering,as interpreted based on XRD,CO chemisorption,and TEM analyses.The Pt sintering is affected depending on the second promoter that can either or reduce the interaction between Pt,WO_(χ)/γ and Al_(2)O_(3).As an electron acceptor of Pt in Pt/WO_(χ)/γ-Al_(2)O_(3),Re and Mn as second promoters resulted in increased Pt^(2+) on the catalytic surface,which strengthens the contact between Pt andγ-Al_(2)O_(3) and WO_(χ),resulting in a decrease in Pt sintering.The metal leaching and coking are not affected by the presence of second promoter.The catalyst modified with a second promoter possesses improved catalytic activity and 1,3-PDO production,however the stability continues to remain a challenge.The present work unrav-elled the determining parameters of catalytic activity and deactivation,thus providing a promising pro-tocol toward effective catalysts for glycerol hydrogenolysis.

Vertical 3D Nanostructures Boost Efficient Hydrogen Production Coupled with Glycerol Oxidation Under Alkaline Conditions

Hydrogen production from electrolytic water is an important sustainable technology to realize renewable energy conversion and carbon neutrality.However,it is limited by the high overpotential of oxygen evolution reaction(OER)at the anode.To reduce the operating voltage of electrolyzer,herein thermodynamically favorable glycerol oxidation reaction(GOR)is proposed to replace the OER.Moreover,vertical Ni O flakes and NiMoNH nanopillars are developed to boost the reaction kinetics of anodic GOR and cathodic hydrogen evolution,respectively.Meanwhile,excluding the explosion risk of mixed H_2/O_(2),a cheap organic membrane is used to replace the expensive anion exchange membrane in the electrolyzer.Impressively,the electrolyzer delivers a remarkable reduction of operation voltage by 280 mV,and exhibits good long-term stability.This work provides a new paradigm of hydrogen production with low cost and good feasibility.

Optimized Electronic Modification of S-Doped CuO Induced by Oxidative Reconstruction for Coupling Glycerol Electrooxidation with Hydrogen Evolution

Glycerol(electrochemical) oxidation reaction(GOR) producing organic small molecule acid and coupling with hydrogen evolution reaction is a critical aspect of ensuring balanced glycerol capacity and promoting hydrogen generation on a large scale. However, the development of highly efficient and selective non-noble metal-based GOR electrocatalysts is still a key problem. Here, an S-doped CuO nanorod array catalyst(S-CuO/CF) constructed by sulfur leaching and oxidative remodeling is used to drive GOR at low potentials: It requires potentials of only 1.23 and 1.33 V versus RHE to provide currents of 100 and 500 mA cm^(-2), respectively. Moreover, it shows satisfactory comprehensive performance(at 100 mA cm^(-2), V_(cell) = 1.37 V) when assembled as the anode in asymmetric coupled electrolytic cell. Furthermore, we propose a detailed cycle reaction pathway(in alkaline environment) of S-doped CuO surface promoting GOR to produce formic acid and glycolic acid. Among them, the C–C bond breaking and lattice oxygen deintercalation steps frequently involved in the reaction pathway are the key factors to determine the catalytic performance and product selectivity. This research provides valuable guidance for the development of transition metal-based electrocatalysts for GOR and valuable insights into the glycerol oxidation cycle reaction pathway.

地质环境中生物标志物 GDGTs 分析技术研究进展

甘油二烷基甘油四醚脂(GDGTs)是一类来自于微生物细胞膜脂的新兴生物标志物,广泛存在于海洋、湖泊、土壤、泥炭等环境。在活体细胞中,GDGTs通常以完整极性膜脂(IPL-GDGTs)的形式存在,而在地质环境中主要以脱去极性头基的核心脂(CL-GDGTs)的形式存在。CL-GDGTs结构稳定、不易降解,并且对环境变化响应敏感,因此被认为是重建古气候-古环境变化的有力工具。GDGTs结构复杂、种类多样,在环境中的含量通常较低且常与其他化合物共存,因此分析难度较高,现有技术和方法在其分离、纯化、定量等方面仍然面临挑战。本文总结了近年来GDGTs在分析技术方面的研究进展,概述了GDGTs的分类与结构,对环境中IPL-GDGTs和CL-GDGTs的分离、纯化等方法进行总结和比较,其中CL-GDGTs可选择多种提取方法,而极性较强、热稳定性较差的IPL-GDGTs应尽量选取Bligh-Dyer提取法。普通的分离、纯化通常采用柱层析法,而涉及GDGTs单体分离时,一般采用制备液相色谱法。液相色谱-质谱、核磁共振波谱、气相色谱-同位素比值质谱是GDGTs含量测定、结构鉴定、同位素分析的主要分析手段。本文评述了现有方法的特点和不足,并在此基础上,提出了GDGTs分析技术的发展方向,以期为地质环境中GDGTs的分析研究提供启示和参考。

日粮添加三丁酸甘油酯对肉鸡生长性能、养分消化率和血清生化指标的影响

文章旨在研究日粮中添加不同水平三丁酸甘油酯对肉鸡综合性能的影响。本试验将160只体重相近、健康无病的1日龄肉鸡随机分为4组,每组4个重复。对照组肉鸡饲喂基础日粮。试验I、II和III组分别在基础日粮中添加1000、1500、2000mg/kg三丁酸甘油酯。预饲期7d,正试期42d。结果表明,与对照组相比,试验组肉鸡的42日龄体重和平均日增重显著增加(P <0.05),试验II、III组肉鸡的料重比显著降低(P <0.05),但平均日采食量无显著差异(P> 0.05);试验组干物质、粗蛋白质、粗纤维及能量的表观消化率均显著增加(P <0.05);试验组肉鸡血清中总蛋白质含量和高密度脂蛋白含量显著增加(P <0.05),总胆固醇和甘油三酯含量显著降低(P <0.05),各试验组肉鸡血清中低密度脂蛋白含量较对照组无显著差异(P> 0.05)。总的来讲,日粮中添加三丁酸甘油酯能有效改善肉鸡生长性能,提升养分表观消化率,改善血清生化指标,综合考虑,肉鸡日粮中三丁酸甘油酯的最适添加量为1500mg/kg。

离子色谱法检测水质中微量甘油

建立了离子色谱法测定水质中微量甘油的方法。在酸性条件下,使用高碘酸钠将甘油定量氧化成甲酸,再通过离子色谱法定量检测甲酸根含量,从而折算得到甘油准确含量。甘油衍生化样品用20 mmol/L KOH洗脱液淋洗,淋洗流量为1.0 mL/min, Dionex IonPac AS15阴离子交换色谱柱分离,抑制型电导检测器检测。衍生化后的甲酸根检出限为0.015 mg/L,对水质样品衍生化后的甲酸根离子在0.5、1.0、2.0、3.0 mg/L加标水平的回收率为96.26%~99.68%,该方法的相对标准偏差为0.39%。结果表明,该方法前处理条件温和、反应速度快、副产物少、灵敏度高、准确度高、重复性好,适用于水质中微量甘油含量的检测。

聚均苯三甲酸丁二醇酯/甘油对淀粉的协同增塑作用

经甘油增塑的淀粉对湿度敏感、易老化。本研究采用一步法制备超支化聚均苯三甲酸丁二醇酯(H),并与甘油(G)作为玉米淀粉(CS)的共增塑剂混合制备淀粉薄膜。采用傅里叶变换红外光谱(FTIR)和核磁共振氢谱(^(1)H NMR)证实了超支化聚均苯三甲酸丁二醇酯的结构,并研究了共增塑剂对淀粉相互作用、结晶度、拉伸性能、抗老化性、热稳定性、透光率和吸湿性的影响。结果表明,聚均苯三甲酸丁二醇酯/甘油对淀粉薄膜的韧性、抗老化、透光性和吸湿性有协同作用。聚均苯三甲酸丁二醇酯/甘油配比为5/25的淀粉薄膜(CS/H5G25)具有最大的断裂伸长率、最高的透光率、最佳的抑制淀粉重结晶的能力以及最低的吸湿率(RH>68%)。CS/H2G28薄膜储存3、15和30 d的断裂伸长率分别为85.9%、103.1%和77.2%,分别是CS/G薄膜的2.8倍、2.3倍和3.7倍。这不仅取决于各组分之间的相互作用,还可能与组分之间的相容性有关。聚均苯三甲酸丁二醇酯/甘油在增塑淀粉方面具有潜在的应用价值。

权重依赖荧光寿命成像检测甘油-水混合物黏度

目的基于荧光寿命成像技术,提出一种黏度检测的新方法,并评估不同权重荧光寿命在区分甘油-水混合物黏度的能力,从而提供对黏度区分的准确度和可靠性。方法采用电子学中的权重依赖原理,分别引入了振幅加权平均荧光寿命(τ_(m))和强度加权平均荧光寿命(τ_(i))。通过τ_(m)和τ_(i)检测甘油-水混合物黏度变化。振幅加权平均荧光寿命反映了荧光信号振幅与时间的关系,而强度加权平均荧光寿命则关注荧光信号强度的时变特性。结果τ_(m)和τ_(i)两种结果相互佐证,这不仅提高了对甘油-水混合物黏度变化的可靠性,同时也揭示了τ_(m)和τ_(i)在检测过程中的独特作用。尽管τ_(m)在捕捉荧光信号振幅变化方面发挥了关键作用,然而,τ_(i)在考虑荧光信号强度的时变特性时表现出更高的黏度检测准确度。特别值得注意的是,由于τ_(i)更为敏感,微环境黏度检测可以直接利用τ_(i)进行分析。这为实时、高灵敏度的微流体黏度监测提供了更为便捷的途径。通过对τ_(m)和τ_(i)的综合利用,不仅能够更全面、准确地了解甘油-水混合物的黏度信息,而且可以根据具体需求选择更为适用的参数进行深入分析。结论振幅加权和强度加权的结合可以在不同条件下更为灵敏地识别黏度的微小变化。这种方法的创新之处在于其对多参数的同时关注,提高了对黏度变化的敏感性和可分辨性。因此,这种权重依赖的荧光寿命成像技术不仅为甘油-水混合物的黏度探测提供了一种全新的方法,同时也为微流体、流变学以及新型功能材料研究等领域提供了有力的分析手段。

基于酸化甘油的草莓花色苷提取与储存工艺优化

为提高草莓花色苷的提取效率和储存稳定性,该研究通过酸化甘油体系与探针脉冲超声相结合,优化草莓花色苷的提取工艺。采用UPLC-Triple-TOF/MS鉴定花色苷;在高温和光照条件下探究花色苷的稳定性;并利用分子动力学研究酸化甘油提取和储存草莓花色苷的内在机制。结果表明,在最佳条件:甘油浓度为26%(体积分数),温度为67℃,液料比为34 mL/g,超声时间为53 min下,花色苷得率为(902.41±0.84)μg/g;酸化甘油提取液中含有飞燕草素-3-葡萄糖苷、矢车菊素-3-葡萄糖苷、天竺葵素-3-葡萄糖苷和锦葵色素-3-葡萄糖苷4种花色苷。酸化甘油体系能够显著提高花色苷在高温和光照条件下的稳定性。酸化甘油体系具有较大的扩散系数(0.57 m^(2)/s)、平均氢键数量(406个)以及较小的非共价相互作用能(-1798.85 kcal/mol)。综上所述,通过酸化绿色溶剂甘油可以更高效地从草莓中提取并储存花色苷。

鸡精液甘油简易冷冻保存技术改进与优化效果评价

[目的]改进与优化鸡精液甘油细管简易冷冻保存技术。[方法]采用单因素设计试验,使用6%的冻存(3、6、9个月)与现配甘油保护液制作细管冷冻精液,比较冷冻精液冻后精子活力、活率及畸形率。采用液氮面上熏蒸法优化一步冷冻法冷冻速率,并用优化后一步冷冻法与前期研发的两步冷冻法制作细管冷冻精液,检测两种冷冻方案冻后与离心去甘油后的精子活力、活率、畸形率及种蛋受精率、孵化率。采用一步冷冻法冷冻不同品种公鸡精液,并采用不同输精轮次应用于不同年龄母鸡,通过输精试验评价输精效果。[结果]①添加冻存3、6、9个月的甘油保护液与现配甘油保护液冻后精子活力、活率、畸形率均无显著差异(P>0.05)。②经优化和重复率比较后一步冷冻法最佳冷冻速率为细管精液距离液氮面3 cm冷冻3 min,样品精子活力≥60%的重复率为100%,精子活力≥65%的重复率为65%。③一步冷冻法精子活力、精子活率分别为62.84%和76.00%,均极显著高于两步冷冻法(58.17%和68.62%)(P<0.01),两种冷冻方案的精子畸形率无显著差异(P>0.05)。一步法、两步法冷冻精液离心去甘油前、后平均精子活力、种蛋平均受精率和平均孵化率均无显著差异(P>0.05),单日最高受精率分别为68.34%和80.00%。④采用一步冷冻法制备的黑凤鸡与湘东鸡冻精输精后的种蛋受精率和孵化率均无显著差异(P>0.05)。给30周龄母鸡输精后种蛋受精率极显著高于68周龄母鸡(P<0.01)。3轮4次输精模式种蛋受精率极显著高于1轮2次输精模式(P<0.01)。[结论]将甘油保护液制备成储备液在―20℃冻存,采用一步冷冻法并预先进行冷冻速率优化,输精时注意精液冷藏时长、母鸡年龄、输精轮次,能得到稳定较好的输精效果。

酸化甘油-超声辅助提取杨梅花青素工艺优化及其抗氧化活性研究

目的 通过响应面实验确定酸化甘油-超声辅助提取杨梅花青素最佳提取参数,并探究其体外抗氧化活性。方法 研究了酸化甘油浓度、提取时间、超声功率和提取温度4个单因素对杨梅花青素得率的影响,并优化花青素提取工艺参数。此外,考察了最佳提取工艺下杨梅花青素对3种氧化自由基的清除率和还原力等指标,评估了其抗氧化活性。结果 优化后的酸化甘油-超声辅助提取杨梅花青素的工艺条件为:酸化甘油浓度16%、提取时间42 min、超声功率204 W、提取温度46℃,此条件下杨梅花青素的得率为(6.915±0.027) mg CGE/g DW,接近预测值(6.961 mg CGE/g DW)。提取的杨梅花青素质量浓度为100μg/mL时,对超氧阴离子自由基、羟基自由基、1,1-二苯基-2-三硝基苯肼自由基清除率分别为59.35%、46.77%和61.65%。该浓度下,杨梅花青素的还原力为维生素C的39.84%。结论 本研究成功地应用响应面法优化了酸化甘油-超声辅助提取杨梅花青素的提取参数,并且提取物展现出良好的抗氧化活性。

电子束辐照对薏苡仁中5种真菌毒素降解率以及甘油三油酸酯含量的影响

为了科学利用电子束辐照技术有效降解薏苡仁中的5种真菌毒素[黄曲霉毒素4种:AFB_(1)、AFB_(2)、AFG_(1)和AFG_(2);玉米赤霉烯酮(ZEA)],利用高效液相色谱法,测定了不同剂量[0(未辐照)、2、4、6、8、10 kGy)的电子束辐照处理以及适宜剂量电子束辐照结合不同的水分、pH值、双氧水(H_(2)O_(2))处理后薏苡仁中5种真菌毒素降解率以及甘油三油酸酯含量的变化。结果表明:薏苡仁中5种毒素的降解率均随辐照剂量的增大而逐渐提高,其中8 kGy剂量处理的5种毒素降解率与10 kGy剂量处理差异均不显著,因此确定电子束辐照降解薏苡仁中5种毒素的适宜剂量为8 kGy。8 kGy剂量的电子束辐照时,控制薏苡仁水分含量为10%~12%,pH值为8~9,添加1.0%浓度的H_(2)O_(2),薏苡仁中5种真菌毒素的降解率高,且甘油三油酸酯含量仍能达到《中国药典》(2020版)标准。研究结果可为利用电子束辐照降解薏苡仁中5种毒素提供技术支持。

水热法制备ZrO_(2)催化甘油酯交换反应性能

采用水热法制备了ZrO_(2)催化剂,用于催化甘油(GLY)与碳酸二甲酯(DMC)酯交换反应合成碳酸甘油酯(GC)。考察了焙烧温度对催化剂性能的影响,并采用粉末X射线衍射(XRD)、N_(2)等温吸附-脱附、程序升温脱附(TPD)等手段对ZrO_(2)催化剂进行了表征。结果表明,ZrO_(2)催化性能高度依赖于其表面中强碱性位点密度,当焙烧温度为600℃时,所制备的ZrO_(2)-600催化剂表面中强碱性位点密度较大;在反应温度90℃下反应90 min, GLY转化率为96.1%,GC选择性为86.2%。重复使用第3次时,由于ZrO_(2)表面碱性位点密度减小、孔道坍塌以及部分ZrO_(2)样品溶解在DMC中,GLY转化率和GC选择性均显著下降。

Selective glycerol oxidation using platinum nanoparticles supported on multi-walled carbon nanotubes and nitrogen-doped graphene hybrid

Selective oxidation of glycerol is a hot topic.Increased biodiesel production has led to glycerol oxidation over Au- and Pt-based catalysts being widely studied.However,Pt catalysts suffer from deactivation because of weak metal-support interactions.In this study,multi-walled carbon nanotube（MWCNTs）-pillared nitrogen-doped graphene（NG） was prepared by direct pyrolysis of melamine on MWCNTs,and the synthesized NG-MWCNT composite was used as the support for Pt.Characterization results showed that the surface area（173 m^2/g） and pore volume of the NG-MWCNT composite were greater than those of bare MWCNTs and the separated melamine pyrolysis product（CH_x）.Pt（1.4±0.4 nm） dispersion on the NG-MWCNTs was favorable and the Pt/NG-MWCNT catalyst was highly active and selective in the oxidation of glycerol to glyceric acid（GLYA） in base-free aqueous solution.For example,the conversion of glycerol reached 64.4% with a GLYA selectivity of 81.0%,whereas the conversions of glycerol over Pt/MWCNTs and Pt/CN_x were 29.0% and 31.6%,respectively.The unique catalytic activity of the Pt/NG-MWCNTs is attributed to well-dispersed Pt clusters on the NG-MWCNTs and the electron-donating effect of the nitrogen dopant in the NG-MWCNTs.

Selective oxidation of glycerol to lactic acid over activated carbon supported Pt catalyst in alkaline solution

Pt/activated carbon （Pt/AC） catalyst combined with base works efficiently for lactic acid production from glycerol under mild conditions. Base type （LiOH, NaOH, KOH, or Ba（OH）2） and base/glycerol molar ratio significantly affected the catalytic performance. The corresponding lactic acid selectivity was in the order of LiOH〉NaOH〉KOH〉Ba（OH）2. An increase in LiOH/glycerol molar ratio ele‐vated the glycerol conversion and lactic acid selectivity to some degree, but excess LiOH inhibited the transformation of glycerol to lactic acid. In the presence of Pt/AC catalyst, the maximum selec‐tivity of lactic acid was 69.3% at a glycerol conversion of 100% after 6 h at 90 °C, with a Li‐OH/glycerol molar ratio of 1.5. The Pt/AC catalyst was recycled five times and was found to exhibit slightly decreased glycerol conversion and stable lactic acid selectivity. In addition, the experimental results indicated that reaction intermediate dihydroxyacetone was more favorable as the starting reagent for lactic acid formation than glyceraldehyde. However, the Pt/AC catalyst had adverse effects on the intermediate transformation to lactic acid, because it favored the catalytic oxidation of them to glyceric acid.

以DMA、甘油与DMF为保护剂的鸡精液冷冻技术体系比较研究

为筛选出高效、更具推广价值的鸡精液冷冻技术体系,以湘黄鸡和湘东鸡冻后精子活力、受精率与孵化率为检测指标,比较二甲基乙酰胺(Dimethylacetamide,DMA)细管、甘油细管与N,N-二甲基甲酰胺(N,N-Dimethylformamide,DMF)细管精液冷冻技术体系效果。结果显示:①DMA方案最适液氮面冷冻距离为1 cm,冻后平均精子活力湘东鸡为0.23,湘黄鸡为0.33;甘油方案最适液氮面冷冻距离为5 cm,冻后平均精子活力湘东鸡为0.41,湘黄鸡为0.36。②湘东鸡DMF方案平均冻后精子活力为0.15,极显著低于甘油与DMA(P<0.01)。③通过5轮输精,甘油方案平均受精率为45.35%,孵化率为60.31%,均极显著高于其他两类方案(P<0.01)。④甘油方案,公鸡26周龄组冻前精子活力与冻后活力极显著高于50周龄组(P<0.01)。结果表明,甘油细管是目前鸡精液冷冻保存建设的首选方案,应用时可先进行冷冻速率的优化,且应尽可能选择青壮年公鸡。

Millisecond dynamics of colloidal suspension studied by X-ray photon correlation spectroscopy at the Shanghai Synchrotron Radiation Facility

X-ray photon correlation spectroscopy(XPCS)has emerged as a powerful tool for probing the nanoscale dynamics of soft condensed matter and strongly correlated materials owing to its high spatial resolution and penetration capabilities.This technique requires high brilliance and beam coherence,which are not directly available at modern synchrotron beamlines in China.To facilitate future XPCS experiments,we modified the optical setup of the newly commissioned BL10U1 USAXS beamline at the Shanghai Synchrotron Radiation Facility(SSRF).Subsequently,we performed XPCS measurements on silica suspensions in glycerol,which were opaque owing to their high concentrations.Images were collected using a high frame rate area detector.A comprehensive analysis was performed,yielding correlation functions and several key dynamic parameters.All the results were consistent with the theory of Brownian motion and demonstrated the feasibility of XPCS at SSRF.Finally,by carefully optimizing the setup and analyzing the algorithms,we achieved a time resolution of 2 ms,which enabled the characterization of millisecond dynamics in opaque systems.