Free radicals trigger the closure of open pores in lignin-derived hard carbons toward improved sodium-storage capacity

The chemical activation of various precursors is effective for creating additional closed pores in hard carbons for sodium storage.However,the formation mechanism of closed pores under the influence of pore-forming agents is not well understood.Herein,an effective chemical activation followed by a high-temperature self-healing strategy is employed to generate interconnected closed pores in lignin-derived hard carbon(HCs).By systematic experimental design combined with electron paramagnetic res-onance spectroscopy,it can be found that the content of free radicals in the carbon matrix influences the closure of open pores at high temperatures.Excessively high activation temperature(>700 C)leads to a low free radical concentration,making it difficult to achieve self-healing of open pores at high tempera-tures.By activation at 700°C,a balance between pore making and self-healing is achieved in the final hard carbon.A large number of free radicals triggers rapid growth and aggregation of carbon microcrys-tals,blocking pre-formed open micropores and creating additional interconnected closed pores in as-obtained hard carbons.As a result,the optimized carbon anode(LK-700-1300)delivers a high reversible capacity of 330.8 mA h g^(-1) at 0.03 A g^(-1),which is an increase of 86 mA h g^(-1) compared to the pristine lignin-derived carbon anode(L-700-1300),and exhibits a good rate performance(202.1 mA h g^(-1) at 1 A g^(-1)).This work provides a universal and effective guidance for tuning closed pores of hard carbons from otherprecursors.

Detection of Oxidants Such as Hydroxyl Radicals and Chlorine Electrogenerated on a BDD Electrode by Simple Methods

The aim of this work is to detect electrogenerated hydroxyl radicals and chlorine by simple and less expensive methods. Preparative electrolyses of perchloric acid (HClO4) and sodium chloride (NaCl) were performed on a boron-doped diamond (BDD) electrode. The hydroxyl radicals were quantified indirectly by assaying the samples from the HClO4 (0.1 M) electrolysis with a 10−4 M potassium permanganate solution. The investigations showed that the amount of hydroxyl radicals depends on the concentration of HClO4 and the current density. As for chlorine, a qualitative determination was carried out. A mixture of the electrolyte solution of HClO4 (0.1 M) + NaI (0.2 M) + 2 mL of hexane, taken in this order, leads to a purplish-pink coloration attesting to the presence of Cl2. The same test was carried out with NaBr and NaI giving pale and very pale pink colourations, respectively, showing that the intensity of the colouration depends on the strength of the oxidant present. In addition, oxidants were detected during the electrooxidation of metronidazole (MNZ). The results showed the participation of electrogenerated hydroxyl radicals. The generation of chlorine has also been proven. Furthermore, the degradation leads to a chemical oxygen demand (COD) removal rate of 83.48% and the process is diffusion-controlled.

Characteristics and fate behavior of environmentally persistent free radicals in atmospheric particulate matter

Background,aim,and scope Environmentally persistent free radicals(EPFRs)have received significant attention due to their longer lifetime and stable existence in various environments.The strong environmental migration ability of particulate matter allows EPFRs to migrate over long-distance transport,thereby impacting the quality of the local atmospheric environment.Additionally,EPFRs can also adhere to atmospheric particles and interact with typical gaseous pollutants to affect atmospheric chemical reactions.EPFRs can produce some reactive organic species,promoting oxidative stress in the human body,damaging biological macromolecules and ultimately affecting the organism health.EPFRs are considered as a novel type of pollutant that affects human health.Despite their significance,there are few literatures available on the characteristics and fate behaviors of EPFRs up to date.Therefore,supplemental reviews are crucial for providing comprehensive understanding of EPFRs.Materials and methods This review summarizes the characteristics of EPFRs in particulate matter,outlines the generation mechanism and influencing factors of EPFRs,and the impacts of EPFRs on environmental quality and organism health.Results The content of EPFRs in particulate matter ranges from 1017 to 1020 spins∙g−1.Due to the strong mobility of atmospheric particulate matter,the long-term exposure to high levels of EPFRs may aggravate the impact of particulate matter on human health.The interaction between EPFRs and typical gaseous pollutants can alter their fate and influence atmospheric chemical reactions.EPFRs are mainly produced by transition metal elements and substituted aromatic hydrocarbons through electron transfer.Additionally,the chemical bond rupture of organic substances through heat treatment or ultraviolet radiation can also produce EPFRs,and heterogeneous reactions are capable producing them as well.The production of EPFRs is not only influenced by transition metal elements and precursors,but also by various environmental factors such as oxygen,temperature,light radiation,and relative humidity.Discussion EPFRs in atmospheric particulates matters are usually rich in fine particulates with obvious seasonal and regional variations.They can easily enter the human respiratory tract and lungs with inhalable particulates,thereby increasing the risk of exposure.Additionally,EPFRs in atmospheric particulates can interact with some typical gaseous pollutants,impacting the life and fate of EPFRs in the atmosphere,and alter atmospheric chemical reactions.Traditionally,EPFRs are generated by transition metal elements and substituted aromatic hydrocarbons undergoing electron transfer in the post-flame and cool-zone regions of combustion systems and other thermal processes to remove HCl,H_(2)O or CO groups,ultimately produce semiquinones,phenoxyls,and cyclopentadienyls.Recent studies have indicated that EPFRs can also be generated under the conditions of without transition metal elemental.Organics can also produce EPFRs through chemical bond rupture during heat treatment or light radiation conditions,as well as through some heterogeneous reactions and photochemical secondary generation of EPFRs.The presence or absence of oxygen has different effects on the type and yield of EPFRs.The concentration,type,and crystal type of transition metal elements will affect the type,content,and atmospheric lifetime of EPFRs.It is generally believed that the impact of transition metal element types on EPFRs is related to the oxidation-reduction potential.The combustion temperature or heat treatment process significantly affects the type and amount of EPFRs.Factors such as precursor loading content,pH conditions,light radiation and relative humidity also influence the generation of EPFRs.EPFRs can interact with pollutants in the environment during their migration and transformation process in environmental medium.This process accelerates the degradation of pollutants and plays a crucial role in the migration and transformation of organic pollutants in environmental media.The reaction process of EPFRs may lead to the production of reactive oxygen species(ROS)such as∙OH,which can induce oxidative stress,inflammation and immune response to biological lung cells and tissues,leading to chronic respiratory and cardiopulmonary dysfunction,cardiovascular damage and neurotoxic effects,ultimately impacting the health of organisms.Conclusions The interaction mechanism between EPFRs in particulate matter and gaseous pollutants remains unclear.Furthermore,research on the generation mechanism of EPFRs without the participation of transition metals is not comprehensive,and the detection of EPFRs is limited to simple qualitative categories and lack accurate qualitative analysis.Recommendations and perspectives Further research should be conducted on the generation mechanism,measurement techniques,migration pathways,and transformation process of EPFRs.It is also important to explore the interaction between EPFRs in atmospheric particulate matter and typical gaseous pollutants.

铝-水反应制氢副产物AlO(OH)的回收及阻燃利用

针对制氢用活性铝合金水解产物中除气态H 2外,还有固态副产物AlO(OH)等的回收和再利用问题。以自制AlO(OH)阻燃添加剂,与聚丙烯(PP)熔融共混制备AlO(OH)/PP复合材料。采用极限氧指数测定仪、热重分析仪、差示扫描量热仪对AlO(OH)/PP复合材料的阻燃性能、热稳定性和结晶行为进行研究。结果表明:随着AlO(OH)从0增加到25%,极限氧指数(LOI)和热稳定性提升,熔滴的滴落得到抑制。AlO(OH)为25%时复合材料的LOI较纯PP提升了29.2%,复合材料结晶峰值温度增加、结晶度下降,自制AlO(OH)具有阻燃效果。

1,25(OH)_(2)D_(3)对Aβ_(1-42)诱导阿尔茨海默病细胞模型中细胞焦亡的抑制作用

目的探讨1,25(OH)_(2)D_(3)对Aβ_(1-42)诱导阿尔茨海默病(Alzheimer′s disease,AD)细胞模型中细胞焦亡的抑制作用及其机制。方法将PC12细胞分为对照组、模型组、Caspase-1-siRNA组、NC-siRNA组、1,25(OH)_(2)D_(3)组、联合干预组。对照组仅用DMEM高糖培养基培养细胞;模型组用20μmol/L Aβ_(1-42)处理细胞以造模;Caspase-1-siRNA组先用50 nmol/L Caspase-1-siRNA处理细胞,再加入20μmol/L Aβ_(1-42);NC-siRNA组先用50 nmol/L NC-siRNA处理细胞,再加入20μmol/L Aβ_(1-42);1,25(OH)_(2)D_(3)组用100 nmol/L 1,25(OH)_(2)D_(3)干预后加入20μmol/L Aβ_(1-42);联合干预组先用50 nmol/L Caspase-1-siRNA处理细胞,然后用100 nmol/L 1,25(OH)_(2)D_(3)干预,最后加入20μmol/L Aβ_(1-42)。细胞免疫荧光检测凋亡相关斑点蛋白(ASC)蛋白的表达;Western blot检测细胞焦亡通路相关蛋白表达,包括:NOD样受体热蛋白结构域相关蛋白3(NLRP3)、天冬氨酸蛋白水解酶-1前体(pro-Caspase-1)、天冬氨酸蛋白水解酶-1(Caspase-1)、消皮素D-N端(GSDMD-N)、IL-1β、IL-1β前体(pro-IL-1β)、IL-18和IL-18前体(pro-IL-18)蛋白;吖啶橙/溴乙啶(AO/EB)染色检测细胞膜通透性。结果与对照组相比,模型组ASC蛋白荧光强度增强(P<0.01),细胞焦亡通路相关蛋白表达均增加(P<0.05),细胞膜通透性变大(P<0.01)。与模型组相比,1,25(OH)_(2)D_(3)组和Caspase-1-siRNA组ASC蛋白荧光强度减弱(P<0.01),pro-Caspase-1、Caspase-1、GSDMD-N、pro-IL-1β、IL-1β、pro-IL-18和IL-18蛋白表达均下调(P<0.01),细胞通透性减小(P<0.01)。与Caspase-1-siRNA组相比,联合干预组GSDMD-N和IL-18蛋白表达降低(P<0.01),细胞通透性减小(P<0.01)。结论Aβ_(1-42)能够诱导PC12细胞发生细胞焦亡现象。1,25(OH)_(2)D_(3)可以通过抑制Aβ_(1-42)诱导的PC12细胞发生焦亡来发挥其抗炎的神经保护作用,其机制与Caspase-1的抑制密切相关。

血浆Hcy、D-二聚体、Lp(a)、25(OH)D水平与老年冠心病患者病情严重程度及心功能分级的相关性

目的:观察血浆同型半胱氨酸(Hcy)、D-二聚体、脂蛋白a[Lp(a)]及25羟维生素D[25(OH)D]水平与老年冠心病患者病情严重程度及心功能分级的相关性。方法:选取2021年2月至2022年2月该院收治的100例老年冠心病患者进行横断面研究,设为冠心病组。另选取同期100名健康体检者进行横断面研究,设为健康组。比较两组血浆Hcy、D-二聚体、Lp(a)及25(OH)D水平;比较冠心病组不同病情严重程度、不同心功能分级患者的血浆Hcy、D-二聚体、Lp(a)及25(OH)D水平;采用Spearman相关性分析,分析血浆Hcy、D-二聚体、Lp(a)及25(OH)D水平与冠心病患者病情程度、心功能分级的相关性。结果:冠心病组血浆Hcy、D-二聚体、Lp(a)水平均高于健康组,血浆25(OH)D水平低于健康组,差异有统计学意义(P<0.05)。重度冠心病患者血浆Hcy、D-二聚体、Lp(a)水平高于中度和轻度患者,且中度患者高于轻度患者;重度冠心病患者血浆25(OH)D水平低于中度和轻度患者,且中度患者低于轻度患者,差异均有统计学意义(P<0.05)。纽约心脏病学会(NYHA)心功能分级Ⅳ级冠心病患者血浆Hcy、D-二聚体、Lp(a)水平高于Ⅲ级、Ⅱ级患者,且Ⅲ级患者高于Ⅱ级患者;NYHA心功能分级Ⅳ级冠心病患者血浆25(OH)D水平低于Ⅲ级、Ⅱ级患者,且Ⅲ级患者低于Ⅱ级患者,差异均有统计学意义(P<0.05)。Spearman相关性分析结果显示,血浆Hcy、D-二聚体、Lp(a)水平与冠心病患者病情严重程度、心功能分级均呈正相关(r>0,P<0.05);血浆25(OH)D水平与冠心病患者病情严重程度、心功能分级均呈负相关(r<0,P<0.05)。结论:血浆Hcy、D-二聚体、Lp(a)水平与老年冠心病患者病情严重程度、心功能分级均呈正相关,血浆25(OH)D水平与老年冠心病患者病情严重程度、心功能分级均呈负相关。

FSH/LH、25(OH)D及AMH对卵巢储备功能及体外受精-胚胎移植结局的预测

目的探讨卵泡刺激素/黄体生成素(FSH/LH)、25-羟维生素D[25(OH)D]及抗苗勒氏管激素(AMH)对卵巢储备功能及体外受精-胚胎移植(IVF-ET)结局的预测价值。方法选取2020年8月至2022年9月于郑州大学第二附属医院行IVF-ET助孕女性112例,根据获卵数分为3个亚组:低反应组(获卵个数≤3个)36例、正常反应组(获卵个数4~15个)48例,高反应组(获卵个数≥16个)28例。对比不同卵巢反应者FSH/LH、25(OH)D、AMH水平;根据COH方案治疗后14 d人绒毛膜促性腺激素(β-HCG)水平,判断患者妊娠结局,收集不同妊娠结局患者临床资料[年龄、不孕类型、不孕病程、优质胚胎数、获卵总个数、受精率、移植胚胎数、LH/FSH、25(OH)D及AMH水平];采用二元Logistic回归分析影响不良妊娠结局的危险因素;计算FSH/LH、25(OH)D、AMH单一及联合对患者不良结局的预测效果。结果不同卵巢反应者中FSH/LH、25(OH)D及AMH水平比较:高反应组>正常反应组>低反应组,差异具有统计学意义(P<0.05)。112例患者中,正常妊娠组77例和非正常妊娠组35例。两组不孕类型、优质胚胎数、不孕病程、获卵总个数、受精率比较差异无统计学意义(P>0.05);两组Gn用量、年龄、移植胚胎数、FSH/LH、25(OH)D及AMH水平比较差异具有统计学意义(P<0.05)。二元Logistic回归分析显示:Gn用量(≥2014.58 U)、年龄(≥39岁)、FSH/LH(≥1.8)、移植胚胎数(≥1.34个)、25(OH)D(≥25.05μg/L)及AMH(≥2.92 ng/mL)为影响妊娠结局的独立危险因素(P<0.05)。ROC结果显示,FSH/LH、25(OH)D、AMH联合预测妊娠结局的敏感度和特异度分别为0.812、0.755,AUC=0.827(95%CI:0.731~0.923),明显高于三指标单独预测(P<0.05)。结论FSH/LH、25(OH)D、AMH水平在高卵巢反应中呈升高状态,三者可作为监测、预防行IVF-ET助孕女性不良妊娠结局的重要指标,且联合预测价值更高。

CuCo_(2)O_(4)/CeO_(2)S型异质结复合材料促进CO_(2)光催化还原为CH_(3)OH的机制分析

随着全球气候变暖加剧,降低CO_(2)浓度成为当务之急。除了减排,将其转化为化学品或燃料也是一种有效的方式。CH_(3)OH作为化工原料和清洁能源,其光催化制备环保且能循环利用碳资源。文章提出了一种用于在可见光照射下从CO_(2)中获得CH_(3)OH产量的有效的介孔材料—CuCo_(2)O_(4)/CeO_(2) S型异质结纳米复合材料。与原始的CeO_(2) NPs相比,CuCo_(2)O_(4)/CeO_(2)异质结光催化剂表现出优异的CH_(3)OH产率。在所有纳米复合材料中,在12%CuCo_(2)O_(4)/CeO_(2)异质结上的CO_(2)转化率允许最大限度地产生CH_(3)OH,产率显著提高,比原始CeO_(2)NPs提高了3倍。文章主要分析了CuCo_(2)O_(4)/CeO_(2)复合材料促进CO_(2)光催化还原为CH_(3)OH的机制,以及透射电子显微镜(TEM)图像、晶体结构相和相纯度、N2吸附等温线和孔径分布。利用先进实验技术和理论计算,揭示电子空穴迁移、CO_(2)吸附活化及CH_(3)OH生成路径,旨在为设计高效光催化剂提供新思路。

新型氮空位g-C_(3)N_(4)/Cu_(2)(OH)_(2)CO_(3)异质结的构建及广谱光催化降解有机染料的性能

本研究设计了一款不含贵金属、宽光谱响应的氮空位异质结催化剂g-C_(3)N_(4)/Cu_(2)(OH)_(2)CO_(3)(VCN/Cu),并考察了其对罗丹明B(RhB)的光催化降解性能。采用扫描电镜/透镜(SEM/TEM)、X射线衍射光谱(XRD)、X光电子能谱(XPS)、荧光光谱(PL)等分析手段对产物形貌、结构、元素能态等性质进行了表征。结果表明,VCN/Cu异质结催化剂对250~1800 nm的光均有较强吸收。VCN/Cu光催化降解RhB最大反应速率常数达到0.052 min^(-1),分别是Cu_(2)(OH)_(2)CO_(3)和g-C_(3)N_(4)的12.7倍和5.8倍,且具有优异的光催化稳定性。Cu_(2)(OH)_(2)CO_(3)一方面作为红外光吸收材料,提高了对太阳光全光谱的利用率;另一方面与VCN构成异质结,提高了光生电子-空穴的分离效率,同时VCN上的氮空位强化了对光生电子的捕获、对氧的吸附及还原作用。此外,本研究还考察了VCN/Cu异质结催化剂光催化降解RhB的机理。

自牺牲法合成氮空位g-C_(3)N_(4)/Cu_(2)(OH)_(2)CO_(3)异质结及其广谱光固氮性能

本研究采用原位自牺牲法合成了N空位掺杂的g-C_(3)N_(4)/Cu_(2)(OH)_(2)CO_(3)(VCN/Cu)异质结催化剂,该催化剂体现出优异的可见-近红外宽光谱驱动性。实验结果表明,g-C_(3)N_(4)与Cu_(2)(OH)_(2)CO_(3)之间的电荷迁移遵循“Z”型机制。氮空位的存在抑制了电荷载流子的重组,降低了界面电荷转移的能量屏障,对N 2和O_(2)的吸附和活化激发了固氮还原反应的进行,并提供了更多的反应活性位点。体系中甲醇作为空穴清除剂时O_(2)的添加对制备的催化剂的光固氮性能有显著的促进作用,在50%O_(2)和50%N_(2)混合气氛下VCN/Cu异质结催化剂的铵离子产率高达14.52 mg·L^(-1)·h^(-1)·g^(-1),是纯N 2气氛下的2.7倍,且按照“三线”光固氮机理运行。本研究为低耗、绿色环保固氮工艺提供了一条新途径。

掺杂BN-OH纳米片的P/PEG@BN-OH同轴纳米纤维的制备及其热性能

为制备高效稳定的相变储热材料,采用同轴静电纺丝技术制备了以聚丙烯腈(PAN)为鞘、聚乙二醇(PEG)与羟基化氮化硼纳米片(BN-OH)为芯的同轴纳米纤维(P/PEG@x BN-OH),并分别通过场发射扫描电子显微镜、透射电子显微镜、差示扫描量热仪、红外热成像仪等手段分析了掺杂不同质量BN-OH纳米片对纤维形貌、热性能、循环稳定性、热能效率及热导率的影响。结果表明:纤维形成了稳定且连续的鞘-芯同轴结构,平均直径介于279~335 nm,而且PEG和BN-OH被包裹在PAN纤维内部,内径大小范围为107~188 nm;P/PEG@x BN-OH纳米纤维显示了优异的相变储热焓值(75~78 J/g)和热稳定性,经100次热循环后PEG无相变渗漏现象;掺杂质量分数为10.0%的BN-OH纳米片可将纤维的热导率提高95%,而且其相变储热和释放率分别提高了67%和154%。

膜诱导技术结合Ca(OH)_(2)-PMMA治疗节段性骨缺损的研究进展

节段性骨缺损是一种负担较大、治疗具有挑战性的疾病,其病因包括创伤、感染、肿瘤等。目前骨缺损的重建方法主要有血管化骨移植、骨搬运以及膜诱导技术(Masquelet技术)等。而血管化自体骨移植虽然被认为是重建大尺寸骨缺损的金标准,但其具有专业性要求高、治疗周期长、过程复杂等局限性,而膜诱导技术因简单、高效及可靠等特性被广泛应用于骨缺损的治疗。膜诱导技术通过两次手术获取具有生物效应的诱导膜,促进缺损部位新骨的生长和愈合,是目前国内外公认的治疗节段性骨缺损的有效方法。本文将概述骨缺损的现状,介绍临界尺寸骨缺损的概念,探讨及思考在膜诱导技术中结合聚甲基丙烯酸甲酯氢氧化钙混合物[Ca(OH)_(2)-PMMA]新型材料应用于节段性骨缺损治疗的临床意义。

Decontamination of Cr(Ⅵ) from water using sewage sludge-derived biochar: Role of environmentally persistent free radicals

Biochar is a well-known material for pollutant removal owing to its low cost and rich surface functionality. A kind of highly active substance, called environmentally persistent free radicals(EPFRs), can be produced in the preparation process of biochar, playing an important role in the removal of pollutants.In this study, sludge-derived biochars(SBC_(120) and SBC_(270)) were prepared by the hydrothermal carbonization under two temperatures(120℃ and 270℃) to investigate their removal abilities of Cr(Ⅵ). The maximum removal amounts of Cr(Ⅵ) by SBC_(120) and SBC_(270) were 16.58 and 22.93 mg·g^(-1), respectively. It was further revealed that the appearance of Cr(Ⅲ), as a result of EPFRs on sludge-derived biochar(SBC) transferred electrons to Cr(Ⅵ) in neutral solutions. That is to say, oxygen-centered(O-centered) EPFRs on SBC_(120) and carbon-centered(C-centered) EPFRs on SBC_(270) all could be used as electron donors to Cr(Ⅵ) to make it become Cr(Ⅲ). This study not only provides a theoretical basis for the mechanism of pollutants removal by sludge-derived biochar but also offers a new perspective on the direct effect of EPFRs on pollutants.

Mg(OH)_(2)对磷酸镁水泥水化过程及性能的影响

磷酸镁水泥(MPC)的镁质原料主要为重烧MgO,由于制备重烧MgO需要高温煅烧,其使用成本和碳排放量过高。氢氧化镁(Mg(OH)_(2))的来源丰富,制取成本低廉且无污染、安全环保,如能大量采用对缓解使用成本和碳排放量过高这一问题具有重要意义。因此,本工作使用Mg(OH)_(2)代替部分重烧MgO,通过X射线衍射、热分析、扫描电镜和能谱分析等测试手段,研究其对MPC工作性能、水化过程、强度发展和微观结构的影响。结果表明,Mg(OH)_(2)的掺入加快了MPC的水化过程,浆体的流动度降低,凝结时间缩短,本工作通过水玻璃热处理改性等缓凝手段改善其工作性能。随着Mg(OH)_(2)的掺入,磷酸镁水泥的水化温度和pH值显著降低,水化28 d后的K-鸟粪石(K-struvite)结晶数量增多,抗压强度随Mg(OH)_(2)含量的增加而降低,当Mg(OH)_(2)掺量在50%以内时,其后期强度下降在15%的范围内,随Mg(OH)_(2)掺量增大,更多的水化产物是由Mg(OH)_(2)反应形成的,当Mg(OH)_(2)掺量为66.6%时,重烧MgO的反应率由平均值22%降低至7%。总而言之,采用大掺量Mg(OH)_(2)制备磷酸镁水泥具有可行性且能确保材料的后期力学性能满足工程应用的要求,对降低磷酸镁水泥使用成本和碳排放具有潜在的应用前景。

MgCo_(2)O_(4)@Ni(OH)_(2)纳米针的制备及其超电性能研究

采用水热和电沉积方法成功合成出超级电容器MgCo_(2)O_(4)@Ni(OH)_(2)(MCON)电极材料。在导电基底泡沫镍上,絮状的Ni(OH)_(2)包覆着针状的MgCo_(2)O_(4),改善了母体材料的结构,构成了有效的电连接,从而增强导电性能。电化学性能测试表明,该MCON表现出优秀的电化学性能,其在1 mA/cm^(2)的电流密度下,比电容高达2635.4 F/g,容量提高了72.4%,且以14 mA/cm^(2)循环1000周次后比电容保持原有容量的91.2%。将MCON与活性炭分别以正极和负极组装成非对称超级电容器,其在电流密度1 A/g下,比电容达91.8 F/g。另外,该非对称超级电容器在功率密度为2.1 kW/kg下,能量密度为28.7 Wh/kg,同时点亮红色发光二极管时长高达25 min。研究结果表明设计复合材料拥有较强的储能能力,适合作为超级电容器电极材料。

Photooxidation of hydrochlorofluocarbons and hydrofluorocarbons initiated by OH radicals

Under simulated atmospheric condition, photoomdation for HCFC-22 + H2O2, HCFC-22 + H2O2+O2, HFC-134A + H2O2 and HFC-134A + H2O2+ O2 systems were studied.H2O2 was irradiated by low pressure mercury lamp and produced OH radicals. The OH radicals can initiate photooxidation of HCFC-22 and 134A. The products of photooxidation were determined by a Fourier Transform infrared Spectroscopy with a 20ml long path cell. The products were COF2,CO2, HCI, H2O and HF for HCFC-22 + H2O2 system, HO, CO2, HCI and HF for HCFC-22 +H2O2 +O2 system, HCOF, CF3OOCF3,CO2, H2O and HF for HFC-134A +H2O2 system, HCOF, CO2, H2O, and HF for HFC-134A + H2O2+ O2 system. Based on those results, the mechanisms of photooxidation were suggested.

阻塞性睡眠呼吸暂停低通气综合征儿童认知功能损害与25(OH)D_(3)水平的关系

目的:分析阻塞性睡眠呼吸暂停低通气综合征(OSAHS)儿童认知功能与25羟维生素D_(3)[25(OH)D_(3)]水平的关系,探讨OSAHS儿童认知功能损害的机制。方法:选取2022年1月至2023年1月温州医科大学附属第二医院育英儿童医院儿童睡眠医学科因“鼾症”收治住院的儿童100例,根据整夜多导睡眠监测结果,诊断为OSAHS组50例、单纯鼾症组50例,并选取同期在我院体检的健康儿童30例作为健康组。比较健康组、单纯鼾症组、OSAHS组儿童的睡眠监测数据、认知功能、血清25(OH)D_(3)水平。结果:与健康组、单纯鼾症组儿童比较,OSAHS患儿睡眠效率(SE)下降、深睡眠时间(SWM期睡眠)减少,浅睡眠(Ⅰ期+Ⅱ期睡眠)时间增多(P<0.05),最低氧饱和度(L-SpO_(2))、阻塞性呼吸暂停低通气指数(OAHI)在3组间差异均有统计学意义(P<0.05)。OSAHS患儿血清25(OH)D_(3)水平明显下降(P<0.05)。OSAHS组患儿计划水平、注意力水平下降(P<0.05),同时性加工、继时性加工水平3组间差异无统计学意义(P>0.05)。Pearson相关性分析显示,OASHA患儿血清25(OH)D_(3)水平与L-SpO_(2)呈正相关(r=0.793,P<0.001),与OAHI呈负相关(r=-0.559,P<0.001),25(OH)D_(3)水平与计划水平呈正相关(r=0.615,P<0.001),与注意力水平亦呈正相关(r=0.558,P<0.001)。OSAHS儿童OAHI与计划水平呈负相关(r=-0.630,P<0.001),与注意力水平亦呈负相关(r=-0.538,P<0.001);OSAHS儿童L-SpO_(2)与计划水平呈正相关(r=0.841,P<0.001),与注意力水平亦呈正相关(r=0.477,P<0.001)。结论:儿童血清25(OH)D_(3)水平与OSAHS患病存在一定关联,OSAHS的严重程度与25(OH)D_(3)水平呈负相关,OSAHS儿童认知功能损害与25(OH)D_(3)水平呈正相关,OSAHS的严重程度与认知功能损害呈正相关,血清25(OH)D_(3)水平下降可能加剧OSAHS儿童认知功能损害。

集成有CNTs和Ni-Ni(OH)_(2)异质结构的电解析氢自支撑薄膜催化剂

氢气是一种重要的能量储存载体.通过电解水析氢的方式,可以将其他可再生能源转化为电能,并以化学能的形式储存于氢气中.为了提高电解析氢过程的能量转化效率、降低能耗,需要高活性的析氢催化剂.这些催化剂不仅应具有巨大的比表面积,还应具备适中的氢吸附能和较强的解离水的能力.铂基催化剂在电解析氢方面展现出了显著的优势,而同族的镍基催化剂因其高性价比而备受关注.然而,在电解析氢过程中,镍基催化剂存在氢吸附强度高和解离水能力弱两个重要缺陷,这导致析氢过程动力学不理想.因此,本文的研究思路是探索如何在镍基催化剂中引入功能性组分,以平衡氢吸附能和催化水解离的能力,从而实现析氢性能的提升.研究表明,碳纳米管(CNTs)可以改善催化剂的电解析氢性能,而Ni(OH)_(2)则可以提升催化剂解离水的能力.因此,本文采用复合电沉积法制得CNTs-Ni薄膜,并通过原位氧化在其表面形成Ni-Ni(OH)_(2)异质结构,构建了包含CNTs和Ni-Ni(OH)_(2)两种功能组分的CNTs-Ni-Ni(OH)_(2)薄膜.该薄膜展现出与Pt/C相当的析氢活性和更出色的稳定性.微观形貌分析显示,CNTs的引入使CNTs-Ni薄膜具有复杂的三维结构,镍以高度褶皱的微球形态均匀负载在CNTs表面,形成巨大的比表面积.电化学测试和模拟计算结果证实,CNTs-Ni薄膜的析氢活性较纯镍有显著提高,这归因于其巨大的电化学活性面积以及CNTs对析氢过程动力学的积极影响.当优化沉积时间和CNTs表面镍的负载量时,CNTs-Ni薄膜的电化学活性面积和析氢活性均得到显著提升.进一步氧化处理后,通过X射线光电子能谱和X射线衍射等测试手段证实了Ni-Ni(OH)_(2)异质结构的形成,并观察到电化学活性面积的增大和析氢活性的改善.此外,深入研究发现,随着氧化时间的延长,单位电化学活性面积上的析氢活性出现下降.结合析氢过程的背景电流分析推测,在析氢过程中CNTs-Ni-Ni(OH)_(2)表面发生氢氧化镍的还原,重新生成的镍活性位点对提升析氢过程动力学起到关键作用.但过长的氧化时间可能会破坏镍活性位点的再生.基于此理论构建的计算模型验证了CNTs和异质结构对析氢活性的协同增强作用,使氢的吸附自由能达到理想值,理论上氢在复合薄膜表面的析出过电位接近于0 V.因此,在碱性溶液中,集成有CNTs和Ni-Ni(OH)_(2)异质结构的CNTs-Ni-Ni(OH)_(2)析氢催化剂表现出优异的性能,其氢气起始析出电位为0 V,当阴极电流密度分别为10和50 mA/cm^(2)时,析氢过电位也仅为65和109 mV.综上所述,本文通过复合电沉积和原位氧化的方式获得了CNTs-Ni-Ni(OH)_(2)自支撑析氢催化剂,不仅体现出明显的几何效应,而且也对析氢过程的动力学产生了积极影响.这种整合多种功能性组分的方式,为未来设计和制备高活性、高性价比的电解析氢材料提供了新的思路.

CuAg双金属催化剂选择性还原CO_(2)为CH_(3)OH的研究

CO_(2)选择性电催化还原生成甲醇、乙醇等液相产物是CO_(2)资源化利用的有效途径,但该技术存在产物选择性差、法拉第效率低等问题。因此,以Ag修饰的泡沫铜为催化剂,在0.1 mol/L Na_(2)SO_(4)的电解质溶液中将CO_(2)电化学还原为液相产物。结果表明,CuAg双金属催化剂能抑制析氢反应的产生,并显著提升甲醇产物的选择性,甲醇的法拉第效率高达85.48%;电解超过100 h,催化剂的催化性能仍保持稳定。

腐蚀产物中Zn_(5)(OH)_(8)Cl_(2)对纯Zn腐蚀行为的影响

目的探究纯Zn腐蚀产物中碱式氯化锌(Zn_(5)(OH)_(8)Cl_(2),ZHC)对其腐蚀防护性能的影响以及腐蚀防护机理。方法通过原位生长法在纯Zn表面制备一层ZHC膜。通过X射线光电子能谱仪(XPS)、X射线衍射仪(XRD)、扫描电子显微镜(SEM)和能谱仪(EDS),分析了样品的物相组成和微观形貌。通过电化学阻抗谱(EIS)和动电位极化曲线(Tafel),评估了ZHC膜对纯Zn腐蚀防护性能的影响。结果纯Zn表面先形成了一层致密细小的ZHC纳米片,铺满整个纯Zn表面后,在第一层ZHC上形成第二层较大尺寸的ZHC纳米片。预制备的ZHC膜可以使纯Zn的腐蚀电流密度从78.23μA/cm^(2)降低到2.08μA/cm^(2),腐蚀电位从‒1.050V(vs.SCE)提升到‒0.998V(vs.SCE),并且随着ZHC制备时间的增加,阴极斜率(βc)逐渐增大,这表明ZHC可以有效阻碍电荷转移,抑制阴极的氧还原,减缓纯Zn的腐蚀速率,对Zn基体的腐蚀起到防护作用。在浸泡腐蚀过程中,ZHC可以抑制HZ的生成,减少絮状腐蚀产物的生成。在短期浸泡过程中,纯Zn的阻抗值随着预制备ZHC的增加而逐渐增大,这是因为生成的腐蚀产物填补ZHC纳米片的空隙,使腐蚀产物膜致密,ZHC膜对Zn基体能起到较好的防护作用。在长期浸泡过程中,ZHC/Zn的阻抗值下降,这是因为ZHC膜破裂,提供了新的腐蚀通道,导致ZHC膜对纯Zn的防护作用下降。结论ZHC膜可以减缓纯Zn的腐蚀速率。对比纯Zn和ZHC/Zn在浸泡过程中的腐蚀行为可知,在短期浸泡过程中,随着预制备ZHC的增加,对纯Zn的防护性能逐渐提高;在长期浸泡腐蚀过程中,ZHC膜对纯Zn腐蚀的防护作用逐渐下降。