Shock-induced chemical reaction characteristics of PTFE-Al-Bi_(2)O_(3)reactive materials

A ternary system of PTFE/Al/Bi_(2)O_(3)is constructed by incorporating PTFE-based reactive material and thermite for enhancing the energy release of the PTFE-based reactive material.The effects of Bi_(2)O_(3)in the PTFE/Al/Bi_(2)O_(3)on both mechanical properties and the energy release were investigated through various tests such as thermogravimetry-differential scanning calorimetry,adiabatic oxygen bomb test and split Hopkinson pressure bar test.The microstructure observed through scanning electron microscope and Xray diffraction results are used to analyze the ignition and reaction mechanism of PTFE/Al/Bi_(2)O_(3).The results indicate that the PTFE/Al/Bi_(2)O_(3)are capable of triggering the exothermic reaction of molten PTFE/Bi_(2)O_(3)and Al/Bi_(2)O_(3)over the PTFE/Al reactive materials,thereby promoting reactions.The excessive aluminum in the ternary system is beneficial for increasing energy release.The ignition of shock-induced chemical reactions in PTFE/Al/Bi_(2)O_(3)is closely related to the material fracture.The dominant mechanism for hot-spot generation under Split Hopkinson Pressure Bar test is the frictional temperature rise at the microcrack after failure.

化瘀止痛贴膏调节IL-6/STAT3信号通路对急性软组织损伤大鼠炎症反应的影响

目的探讨化瘀止痛贴膏调节白细胞介素-6(IL-6)/信号转导与转录激活子3(STAT3)信号通路对急性软组织损伤(ASTI)大鼠炎症反应的影响。方法将SPF级SD大鼠随机分为对照组、模型组、化瘀止痛贴膏低、中、高剂量组、精制狗皮膏组。利用机械冲击挫伤法建立ASTI动物模型,建模成功后,各组贴敷相应药物,1次/d,每次给药8 h,连续7 d。对大鼠进行ASTI损伤评分;采用血液流变检测仪检测血液流变学指标;苏木精和伊红(HE)染色法观察大鼠损伤部位肌肉组织病理变化;酶联免疫吸附法(ELISA)检测各组大鼠损伤部位肌肉组织中IL-6、IL-β、肿瘤坏死因子-α(TNF-α)水平;实时荧光定量PCR(qRT-PCR)法检测损伤部位肌肉组织中IL-6与STAT3 mRNA表达;蛋白免疫印迹(Western blot)法检测大鼠损伤部位肌肉组织中IL-6/STAT3信号通路蛋白表达。结果与对照组比较,模型组大鼠软组织损伤评分、全血黏度、血浆黏度、红细胞压积、肌肉组织病理学评分、IL-6、IL-β、TNF-α水平、IL-6与STAT3 mRNA表达水平及IL-6、p-STAT3/STAT3蛋白表达水平升高(均P<0.05);与模型组比较,化瘀止痛贴膏低、中、高剂量组和狗皮膏药组大鼠软组织损伤评分、全血黏度、血浆黏度、红细胞压积、肌肉组织病理学评分、IL-6、IL-β、TNF-α水平、IL-6与STAT3 mRNA表达水平及IL-6、p-STAT3/STAT3蛋白表达水平降低(均P<0.05);化瘀止痛贴膏高剂量组与精制狗皮膏组大鼠以上指标差异均无统计学意义(P>0.05)。结论化瘀止痛贴膏可能通过下调IL-6/STAT3信号通路缓解ASTI大鼠的炎症反应。

玻纤负载α-Fe_(2)O_(3)/CuFe_(2)O_(4)异质结薄膜的制备 及其催化性能

为了克服传统芬顿催化剂的降解速率慢、pH适用范围窄、难回收等缺点,采用浸涂溶胶-凝胶法制备了玻璃纤维负载的α-Fe_(2)O_(3)/CuFe_(2)O_(4)异质结薄膜(FCGF),对其结构、形态和化学组成进行表征,并将其用于亚甲基蓝的光芬顿催化降解,考察其催化活性、pH值适用性和重复使用稳定性。结果表明:CuFe2O4颗粒生长在α-Fe_(2)O_(3)颗粒表面,形成α-Fe_(2)O_(3)/CuFe_(2)O_(4)异质结;在模拟太阳光辐射条件下,加入2 g FCGF和20 mmol/L的H_(2)O_(2),50 mL质量浓度为30 mg/L的MB溶液在40 min后降解率达到97%,而在相同条件下加入α-Fe_(2)O_(3)与CuFe_(2)O_(4)降解率分别为20%和30%,其催化活性的增强可归因于异质结光催化剂产生的光诱导电位差驱动的光生载流子的有效分离;同时,FCGF在宽pH范围显示出较高活性,pH=10时,MB溶液40 min后降解效率仍达到63%;FCGF具有良好的稳定性,5次循环后其催化性能没有衰减,反应40 min后MB降解率仍可达97%。

Al/Fe_(2)O_(3)铝热剂粉尘着火敏感性

为明确铝热剂反应的着火特性,利用最低着火温度(minimum ignition temperature,MIT)和最小点火能(minimum ignition energy,MIE)测试装置,结合TG-DSC方法对4种Al粉与Fe_(2)O_(3)质量比为1∶4,1∶3,1∶2,1∶1的层状和云状Al/Fe_(2)O_(3)铝热剂进行了着火敏感性研究.结果表明,4种配比试样的粉尘层、粉尘云MIT均超出相关标准常规测试范围,在空气中质量比为1∶3铝热剂的反应触发温度为888℃,活化能为248.49 kJ/mol,说明铝热反应不容易触发;相同质量比的Al/Fe_(2)O_(3)粉尘云的MIE远高于粉尘层,层状MIE最低值为0.7 J,着火敏感性较强,这是因为Fe_(2)O_(3)在粉尘云状态的反应中充当惰化剂,而在粉尘层状态反应中为反应提供了活性氧自由基.

γ-Al_(2)O_(3)载体的水热合成及其加氢性能

以ρ-Al_(2)O_(3)和NH4HCO3为原料,采用水热法合成出γ-Al_(2)O_(3)的前驱体碳酸铝铵(AACH),考察了原料配比和反应时间对合成产物的影响,利用X射线衍射仪、物理吸附分析仪、化学吸附仪对2种不同前驱体制得的载体进行表征,并对2种载体制得的催化剂进行了加氢脱硫脱氮性能评价。结果表明:在n(HCO_(3)^(-))/n(Al^(3+))为1.5∶1.0,100℃反应14 h下制得具有棒状结构、结晶度较好的AACH;相比由传统拟薄水铝石制得的载体,由AACH制得的载体具有较高比表面积和大孔容,有效孔径(4~10 nm)的孔容占比更高,且利于反应进行的中强酸更多,且所制备催化剂的脱硫脱氮活性更佳。

Construction of Ru/WO3 with hetero-interface structure for efficient hydrogen evolution reaction

Water electrolysis is considered as one most promising technique for hydrogen production.The high efficiency electrocatalyst is the key to accelerating the sluggish kinetics of the hydrogen evolution reaction(HER) in alkaline media.In this work,an efficient HER electrocatalyst with hetero-interfacial metal-metal oxide structure was constructed through a redox solid phase reaction(SPR) strategy.During the annealing process under Ar atmosphere,RuO_(2) and WS_(2)in RuO_(2)/WS_(2)precursor were converted to Ru nanoparticles(NPs) and WO3in situ,where tiny Ru NPs and oxygen vacancies were uniformly distributed onto the newly formed WO3nanosheets.Different characterization techniques were adopted to confirm the successful formation of Ru/WO_(3)electrocatalyst(RWOC).The optimized RWOC sample annealed at 400℃ exhibited the low overpotential value of 13 mV at a current density of 10 mA cm^(-2)and strong durability under the alkaline condition.Density functional theoretical calculations further revealed that the promoted adsorption/desorption rate of reaction intermediates and the accelerated kinetics of HER process were deduced to the synergistic effect between Ru and WO_(3)in electrocatalyst.This work provides a feasible method to fabricate highly efficient HER electrocatalysts.

Inducing Fe 3d Electron Delocalization and Spin‑State Transition of FeN_(4) Species Boosts Oxygen Reduction Reaction for Wearable Zinc–Air Battery

Transition metal-nitrogen-carbon materials(M-N-Cs),particularly Fe-N-Cs,have been found to be electroactive for accelerating oxygen reduction reaction(ORR)kinetics.Although substantial efforts have been devoted to design Fe-N-Cs with increased active species content,surface area,and electronic conductivity,their performance is still far from satisfactory.Hitherto,there is limited research about regulation on the electronic spin states of Fe centers for Fe-N-Cs electrocatalysts to improve their catalytic performance.Here,we introduce Ti_(3)C_(2) MXene with sulfur terminals to regulate the electronic configuration of FeN_(4) species and dramatically enhance catalytic activity toward ORR.The MXene with sulfur terminals induce the spin-state transition of FeN_(4) species and Fe 3d electron delocalization with d band center upshift,enabling the Fe(II)ions to bind oxygen in the end-on adsorption mode favorable to initiate the reduction of oxygen and boosting oxygen-containing groups adsorption on FeN_(4) species and ORR kinetics.The resulting FeN_(4)-Ti_(3)C_(2)Sx exhibits comparable catalytic performance to those of commercial Pt-C.The developed wearable ZABs using FeN_(4)-Ti_(3)C_(2)Sx also exhibit fast kinetics and excellent stability.This study confirms that regulation of the electronic structure of active species via coupling with their support can be a major contributor to enhance their catalytic activity.

Novel ternary metals-based telluride electrocatalyst with synergistic effects of high valence non-3d metal and oxophilic Te for pH-universal hydrogen evolution reaction

Electrocatalyst designs based on oxophilic foreign atoms are considered a promising approach for developing efficient pH-universal hydrogen evolution reaction(HER)electrocatalysts by overcoming the sluggish alkaline HER kinetics.Here,we design ternary transition metals-based nickel telluride(Mo WNi Te)catalysts consisting of high valence non-3d Mo and W metals and oxophilic Te as a first demonstration of non-precious heterogeneous electrocatalysts following the bifunctional mechanism.The Mo WNi Te showed excellent HER catalytic performance with overpotentials of 72,125,and 182 mV to reach the current densities of 10,100,and 1000 mA cm^(-2),respectively,and the corresponding Tafel slope of 47,52,and 58 mV dec-1in alkaline media,which is much superior to commercial Pt/C.Additionally,the HER performance of Mo WNi Te is well maintained up to 3000 h at the current density of 100 mA cm^(-2).It is further demonstrated that the Mo WNi Te exhibits remarkable HER activities with an overpotential of 45 mV(31 mV)and Tafel slope of 60 mV dec-1(34 mV dec-1)at 10 mA cm^(-2)in neutral(acid)media.The superior HER performance of Mo WNi Te is attributed to the electronic structure modulation,inducing highly active low valence states by the incorporation of high valence non-3d transition metals.It is also attributed to the oxophilic effect of Te,accelerating water dissociation kinetics through a bifunctional catalytic mechanism in alkaline media.Density functional theory calculations further reveal that such synergistic effects lead to reduced free energy for an efficient water dissociation process,resulting in remarkable HER catalytic performances within universal pH environments.

CoP修饰Ti_(3)C_(2)T_(x)MXene纳米复合材料作为高效析氢反应电催化剂

高效、经济和环保是电化学水分解制氢电催化剂的关键要素。二维(2D)MXene材料因其独特的物理化学性质而受到广泛关注。虽然有许多不同种类的MXene材料,但只有少数具有本征析氢反应(HER)催化活性。然而,MXene材料具有很多优点,如较大的比表面积、高电导率和丰富的表面官能团,因此可以作为与其他物质复合的理想平台。本研究首先通过密度泛函理论(DFT)预测了CoP与Ti_(3)C_(2)T_(x)MXene(其中T_(x)=―F和―OH官能团)具有低的氢吸附自由能(ΔGH^(*))。接着,我们合成了CoP-Ti_(3)C_(2)T_(x)MXene纳米复合材料,并在0.5 mol∙L^(−1)H_(2)SO_(4)中测试了其电催化HER性能。该材料在电流密度为10 mA∙cm^(−2)时表现出了低的过电位(135 mV)和Tafel斜率为48 mV∙dec^(−1)。理论计算表明,CoP-Ti_(3)C_(2)T_(x)MXene纳米复合材料的优异电催化性能源于Ti_(3)C_(2)T_(x)的高金属导电性、良好的界面电荷转移、快速的氢吸附/解吸过程以及优化的电子结构。

^(10)BF_(3)制备H_(3)^(10)BO_(3)反应进程在线监测

工业规模生产富集^(10)B的硼酸(H_(3)^(10)BO_(3),^(10)B>19.8%)时需要监测反应的进行程度和判定反应的终点。为解决现有监测方法步骤繁琐、人为误差大、精准度低等问题,本文设计并建造了一套在线监测反应进行程度的实验装置,并采用该实验装置对通过富集^(10)B的三氟化硼(^(10)BF_(3),^(10)B>19.8%)与难溶于水的碳酸锶(SrCO_(3))反应制备H_(3)^(10)BO_(3)的实验进行原位、实时、在线监测。测试得到的溶液离子浓度随时间变化的数据曲线可以用c_(t)-c_(1)=c_(0)e^(-kt)公式进行拟合,其拟合系数R^(2)为1.00000。在相同条件下,进行了4次重复性测试实验,得到的4条溶液离子浓度随时间变化的数据曲线用c_(t)-c_(1)=c_(0)e^(-kt)公式拟合,其拟合系数R^(2)都为1.00000,说明用该实验装置进行长时间、多次测试,得到的数据精准度高、误差小、重现性好;且拟合方程的3个参数c1、c0、k的标准偏差(s)均小于0.3%,这说明用c_(t)-c_(1)=c_(0)e^(-kt)方程拟合的精密度高。c_(t)-c_(1)=c_(0)e^(-kt)方程可以用于^(10)BF_(3)制备H_(3)^(10)BO_(3)反应的进行程度监测。实验得到的离子浓度-时间曲线的拟合方程c_(t)-c_(1)=c_(0)e^(-kt)与化学反应的一级动力学方程ct=c_(0)e^(-kt)在表现形式上一致,表明用c_(t)-c_(1)=c_(0)e^(-kt)方程拟合^(10)BF_(3)制备H_(3)^(10)BO_(3)反应的进行程度符合化学反应进行实质,c_(t)-c_(1)=c_(0)e^(-kt)方程能够作为^(10)BF_(3)制备H_(3)^(10)BO_(3)反应进行程度和反应终点的判定依据。^(10)BF_(3)制备H_(3)^(10)BO_(3)较合理的加料方式是难溶固体粉末SrCO_(3)与H2O先混溶,搅拌下形成悬浮液,然后把悬浮液加热至设定温度并保持恒定,再向悬浮液中加入^(10)BF_(3)。在线监测结果表明,^(10)BF_(3)制备H_(3)^(10)BO_(3)需经过3步加羟基脱氟取代反应,其前两步反应是快反应,第3步反应是慢反应,即第3步反应是^(10)BF_(3)制备H_(3)^(10)BO_(3)反应的速率控制步骤。^(10)BF_(3)制备H_(3)^(10)BO_(3)反应为表观化学一级动力学反应。

V-Vo-Co_(3)O_(4)催化剂的制备及其析氧性能的研究

阳极的析氧反应(OER)是限制电解水制氢的主要因素,传统的OER电催化剂由于活性低、稳定性差等缺点无法实现大规模使用。过渡金属氧化物Co_(3)O_(4)是一种很有前景的OER催化剂,但较弱的导电性仍然制约着其电催化性能。通过对Co_(3)O_(4)进行改性以增强电催化活性及稳定性,分别在NaBH4和VCl_(3)水溶液中两步浸泡法合成了富氧空位、V掺杂的Co_(3)O_(4)催化剂。利用XRD、SEM、EDS、TEM、HRTEM、SAED、拉曼光谱、XPS等手段对催化剂的相纯度、晶体结构、微观形貌、含有的官能团及化学键等性质进行测试和分析,并对催化剂进行电化学性能测试。结果表明:氧空位的引入使晶格间距有所增大,V成功掺杂到了Vo-Co_(3)O_(4)/NF(Vo指氧空位)结构中;氧空位和V掺杂协同提高了Co_(3)O_(4)/NF的OER性能。在1 mol/L KOH中,V-Vo-Co_(3)O_(4)/NF仅需253 mV/270 mV的过电位就能驱动50(mA·cm^(-2))/100(mA·cm^(-2))的电流密度,Tafel斜率为71.5 mV/dec,并具有100 h的稳定性。其性能的提升主要归因于V掺杂及氧空位的引入对Co_(3)O_(4)电子构型的调控,低结晶度的表面暴露了更多活性位点,以及亲水性的增强有利于OER过程中反应中间体的吸附和解吸。

构筑富含阳离子缺陷的贫P-Ni_(2)P和富P-CoP_(3)异质结用于增强尿素/肼电催化氧化反应

废水中存在的肼和尿素会对环境造成严重污染。利用电化学氧化技术处理含肼和尿素的废水,既可以有效处理废水,实现氮循环,又能将肼和尿素作为新型燃料,有助于新能源的发展。然而,目前实现肼氧化(HzOR)和尿素氧化(UOR)的电化学技术仍存在挑战。因此,开发低成本、高效且稳定性好的电催化剂是实现这一技术的先决条件。在本文中,我们采用水热-碱刻蚀-磷化的三步方法,制备了一种富含阳离子缺陷的双金属磷化物Ni_(2)P/CoP_(3)催化剂(简称Ni_(2)P/CoP_(3)-Zn^(vac)),并将其应用于肼氧化和尿素氧化。该催化剂由贫磷的Ni_(2)P和富磷的CoP_(3)两种不同性质的磷化物组成。CoP_(3)中富集的磷含有大量的负电荷,有利于吸附带正电荷的中间物种;而Ni_(2)P中磷含量较少,金属含量高,具有良好的导电性,可以确保快速的反应动力学。通过物理表征和电化学测试,证实了Ni_(2)P/CoP_(3)的成功合成和其独特的电子结构。电子顺磁测试(EPR)证明了阳离子空位的存在,大量的阳离子空位缺陷有助于增加活性位点的数量,从而提升催化性能。因此,该催化剂在肼氧化和尿素氧化方面表现出色。仅需-47 mV(HzOR)和1.311 V(UOR)的电位即可产生10 mA·cm^(-2)的电流密度。Tafel斜率分别为54.3 mV·dec^(-1)(HzOR)和37.24 mV·dec^(-1)(UOR)。Ni_(2)P/CoP_(3)-Zn^(vac)在HzOR和UOR方面的性能远优于单独的Ni_(2)P和CoP_(3),也优于未经碱刻蚀的镍钴磷化物。基于以上的测试结果,我们将Ni_(2)P/CoP_(3)-Zn^(vac)催化剂应用于直接肼燃料电池(DHzFC)和直接尿素-双氧水燃料电池(DUHPFC)的阳极,测试表明DHzFC和DUHPFC的最大功率密度分别为229.01和16.22mW·cm^(-2)。更为重要的是,DHzFC和DUHPFC能够稳定工作24 h,性能几乎不衰退。此外,Ni_(2)P/CoP_(3)-Zn^(vac)材料还可应用于自制的锌-肼燃料电池,并展示出良好的实际应用潜力。综上所述,本研究通过一系列方法制备了Ni_(2)P/CoP_(3)-Zn^(vac)催化剂,该催化剂在肼氧化和尿素氧化方面具有优异性能。这项工作为设计高效且稳定性好的肼氧化和尿素氧化电催化剂提供了新的思路。

Unveiling the parasitic-reaction-driven surface reconstruction in Ni-rich cathode and the electrochemical role of Li_(2)CO_(3)

Nickel-rich transition-metal oxides are widely regarded as promising cathode materials for high-energydensity lithium-ion batteries for emerging electric vehicles. However, achieving high energy density in Ni-rich cathodes is accompanied by substantial safety and cycle-life obstacles. The major issues of Ni-rich cathodes at high working potentials are originated from the unstable cathode-electrolyte interface, while the underlying mechanism of parasitic reactions towards surface reconstructions of cathode materials is not well understood. In this work, we controlled the Li_(2)CO_(3) impurity content on LiNi_(0.83)Mn_(0.1)Co_(0.07)O_(2) cathodes using air, tank-air, and O_(2) synthesis environments. Home-built high-precision leakage current and on-line electrochemical mass spectroscopy experiments verify that Li_(2)CO_(3) impurity is a significant promoter of parasitic reactions on Ni-rich cathodes. The rate of parasitic reactions is strongly correlated to Li_(2)CO_(3) content and severe performance deterioration of Ni83 cathodes.The post-mortem characterizations via high-resolution transition electron microscope and X-ray photoelectron spectroscopy depth profiles reveal that parasitic reactions promote more Ni reduction and O deficiency and even rock-salt phase transformation at the surface of cathode materials. Our observation suggests that surface reconstructions have a strong affiliation to parasitic reactions that create chemically acidic environment to etch away the lattice oxygen and offer the electrical charge to reduce the valence state of transition metal. Thus, this study advances our understanding on surface reconstructions of Nirich cathodes and prepares us for searching for rational strategies.

调控五配位Al^(3+)含量制备高性能低温Sabatier反应催化剂

为了制备出高性能低温Sabatier反应Ru基催化剂,通过调控Al_(2)O_(3)载体中五配位Al^(3+)的含量(五配位Al^(3+)占Al物种的比例),实现对Ru基活性位点电子性质的调控。在此过程中,利用~(27)Al固体核磁共振(~(27)Al-NMR)检测Al_(2)O_(3)载体中五配位Al^(3+)的含量,借助X射线光电子能谱仪(XPS)和H_2程序升温还原(H_(2)-TPR)考察Ru基活性位点电子性质的调控效果,利用固定床反应器测试催化剂性能。结果表明,Al_(2)O_(3)载体中的五配位Al^(3+)可有效调控Ru基活性位点的电子性质,进而提升低温Sabatier反应Ru基催化剂性能。其中,以五配位Al^(3+)含量约为28.1%的Al_(2)O_(3)载体制备的Ru基催化剂,在低温区(<300℃)的CO_(2)转化率和CH_4选择性均可达90%以上。而且,在100 h的稳定性测试中,催化性能没有明显降低。

CYP1B1*3药物基因检测在紫杉醇个体化用药中的应用研究

目的探究肿瘤患者CYP1B1*3基因多态性与紫杉醇不良反应的相关性,同时检验该基因指导安全用药的效果,为紫杉醇在临床精准使用提供科学依据。方法本研究共分为两个部分:①选取我院2019年8月~2021年12月接受紫杉醇化疗的肿瘤患者104例作为研究对象,采用荧光原位杂交技术(FISH)检测CYP1B1*3(1294 C>G)基因型,观察、收集、记录其药物不良反应(ADR)发生情况,通过药品关联性评价找出紫杉醇导致的ADR,分析ADR和CYP1B1*3基因多态性的相关性;②选取我院2022年1~4月接受紫杉醇化疗的60例肿瘤患者为研究对象,随机分为个体化给药组和常规治疗组,各30例,个体化给药组行CYP1B1*3(1294 C>G)基因检测并根据基因结果及患者个体情况调整给药剂量,常规治疗组无基因筛查,直接按照标准剂量给药,比较两组不良反应发生情况。结果基因相关性研究中,CYP1B1*3野生型基因的肿瘤患者骨髓抑制、胃肠道反应发生率明显高于突变型基因患者,差异有统计学意义(P<0.05);个体化给药研究中,个体化给药组紫杉醇不良反应发生率明显低于常规治疗组,差异有统计学意义(P<0.05)。结论CYP1B1*3基因多态性与紫杉醇不良反应具有关联性,CYP1B1*3基因检测可提升肿瘤患者紫杉醇的用药安全性。

A p-n WO_(3)/SnSe_(2) Heterojunction for Efficient Photo-assisted Electrocatalysis of the Oxygen Evolution Reaction

Water splitting is important to the conversion and storage of renewable energy,but slow kinetics of the oxygen evolution reaction(OER)greatly limits its utility.Here,under visible light illumination,the p-n WO_(3)/SnSe_(2)(WS)heterojunction significantly activates OER catalysis of CoFe-layered double hydroxide(CF)/carbon nanotubes(CNTs).Specifically,the catalyst achieves an overpotential of 224 mV at 10 mA cm^(-2)and a small Tafel slope of 47 mV dec^(-1),superior to RuO_(2)and most previously reported transition metal-based OER catalysts.The p-n WS heterojunction shows strong light absorption to produce photogenerated carriers.The photogenerated holes are trapped by CF to suppresses the charge recombination and facilitate charge transfer,which accelerates OER kinetics and boost the activity for the OER.This work highlights the possibility of using heterojunctions to activate OER catalysis and advances the design of energy-efficient catalysts for water oxidation systems using solar energy.

Ti-Si-Fe合金添加量对Si_(3)N_(4)结合SiC材料结构与性能的影响

为促进Si_(3)N_(4)结合SiC耐火材料的致密化,降低Si粉氮化温度,以SiC颗粒和细粉、Si粉为主要原料,利用从高钛型高炉渣提取的Ti-Si-Fe合金部分取代Si粉,在埋碳气氛下于1350℃反应烧结5 h,制备了Si_(3)N_(4)结合SiC耐火材料。研究了Ti-Si-Fe合金添加量(加入质量分数分别为0、1.8%、3.6%、5.4%、7.2%)对Si粉的氮化行为、材料力学性能和显微结构的影响,并探讨了氮化反应烧结机制。结果表明:1)随着Ti-Si-Fe合金添加量的增加,材料的常温力学性能和高温抗折强度明显改善,荷重软化温度均超过1700℃,Ti-Si-Fe合金添加量超过3.6%(w)后材料性能的增幅变缓;2)Ti-Si-Fe合金促进了Si粉在较低温度下的完全氮化和材料的反应烧结,Ti-Si-Fe合金中各物相及Si粉氮化反应的体积增加能够充填气孔,氮化产物改善骨料与基质、基质内部的结合状态,从而提高材料的致密化程度,改善力学性能;3)引入Ti-Si-Fe合金后,反应体系中形成了富含Ti、Si、N、Fe成分的液相,氮化物的形成除传统的VS、VLS机制外,溶解-沉淀机制在短柱状β-Si_(3)N_(4)、粒状TiN的形成中起到主导作用,交错连结的α-Si_(3)N_(4)晶须、短柱状β-Si_(3)N_(4)、粒状TiN对材料的力学性能起到增强作用。

空心板栗状MAPbI_(3)/TiO_(2)的制备及可见光下降解甲苯研究

首先,以TiCl_(4)为钛源,采用水热法制备空心板栗状TiO_(2)载体.然后,再以PbI_(2)及MAI(MA=CH_(3)NH_(3)^(+))为前驱体,采用溶液法在空心板栗状TiO_(2)上一步构筑MAPbI_(3)薄膜,形成空心板栗状MAPbI_(3)/TiO_(2)复合光催化剂.以甲苯为目标降解物,考察板栗状MAPbI_(3)/TiO_(2)在可见光下的催化降解性能,并对材料的能级结构进行分析,揭示材料的降解机理.结果表明:钙钛矿型MAPbI_(3)薄膜的组成及形貌与PbI_(2)和MAI投料比密切相关,随着投料比的增加,薄膜的成分由MAPbI_(3)和MAI两相变为纯MAPbI_(3),再转变MAPbI_(3)和PbI_(2)两相.能级匹配、结构特殊的板栗状MAPbI_(3)/TiO_(2)不仅可以降低光生电子和空穴的复合率,还能有效地将光生电子和空穴分别转移至MAPbI_(3)的导带及TiO_(2)价带,促进活性粒子·O_(2)^(-)和·OH的生成,因此在甲苯的降解中表现更优的性能.在可见光的照射下,MAPbI_(3)/TiO_(2)对甲苯的降解率在90 min内可高达98%.

胃癌晚期患者CYP3A5^(*)3基因多态性与阿帕替尼单药治疗不良反应的相关性研究

目的探讨胃癌晚期患者细胞色素P4503A5^(*)3(CYP3A5^(*)3)基因多态性与阿帕替尼单药治疗不良反应的关系。方法选取南京市第一医院2020年1月~2022年6月接受阿帕替尼单药治疗的胃癌晚期患者86例。采集患者2ml外周静脉血,采用限制性片段长度多态性聚合酶链反应(PCR-RFLP)联合测序法鉴定患者CYP3A5^(*)3的基因型,分析其与阿帕替尼所致不良反应的相关性。结果86例患者中,突变杂合子型(AG型)29例,突变纯合子型(GG型)51例,突变型占比93.02%。携带CYP3A5^(*)3 GG基因型的患者高血压和白细胞减少的发生率明显高于AA+AG基因型患者(χ^(2)=6.154,6.947,P=0.043,0.027)。阿帕替尼治疗相关的其他不良反应未发现与CYP3A5^(*)3基因型的相关性(P>0.05)。此外,未发现CYP3A5^(*)3基因型与严重不良反应的相关性(P>0.05)。结论CYP3A5^(*)3 GG基因型明显增加阿帕替尼单药治疗所致的高血压和白细胞减少发生风险,未发现其与严重不良反应发生风险的相关性。

氮掺杂碳纳米管负载Co_(3)O_(4)氧还原电催化剂的制备与性能

以碳纳米管(CNT)为原料,通过负载维生素B12,简单热解得到了一种氮掺杂碳纳米管(N/CNT)负载低含量Co_(3)O_(4)纳米颗粒的氧还原电催化剂(Co_(3)O_(4)@N/CNT)。得益于均匀分散的Co_(3)O_(4)纳米颗粒以及氮掺杂,Co_(3)O_(4)@N/CNT表现出了优异的氧还原催化性能,其半波电位达到了0.844 V(vs RHE),超越了商业Pt/C(0.820 V(vs RHE))。与Pt/C相比,基于Co_(3)O_(4)@N/CNT组装的锌-空气电池表现出了更优的放电性能和循环稳定性。