Involvement of ERK1/2 and p38 MAPK in up-regulation of 14-3-3 protein induced by hydrogen peroxide preconditioning in PC12 cells

Objective To investigate the protective effects of hydrogen peroxide preconditioning （HPP） on the pheochromocytoma （PC12） cells treated with 1-methyl-4-phenylpyridinium （MPP^＋） and to explore the potential mechanisms. Methods The viability and apoptosis of PC 12 cells were determinded by 3-（4,5-dimethylthiazol-2-yl）-2,5-diphenyltetrazolium bromide （MTT） assay and 4′,6′-diamidino-2-phenylindole （DAPI） staining, respectively. The expressions of 14-3-3 protein and phospholylated p38 mitogen-activated protein kinase （MAPK） were determined by Western blot. Enzyme-linked immunosorbent assay （ELISA） was used to measure the activity of extracellular signal-regulated protein kinase 1/2 （ERK1/2）. Results The cell viability decreased and the number of apoptotic cells increased dramatically in MPP^＋ group compared with that in Control group. HPP induced a significant increase in cell viability and a marked decrease in population of apoptotic cells of the MPP^＋- treated PC 12 cells, accompanied with up-regulation of 14-3-3 protein and increase of ERK 1/2 and p38 MAPK activities. The 14-3-3 protein expression was positively correlated with the phosphorylation of ERK1/2. Furthermore, inhibition of the ERK1/2 with PD98059 abolished the 14-3-3 protein up-regulation in PC 12 cells induced by HPP. Conclusion HPP protects PC 12 cells against MPP＋ toxicity by up-regulating 14-3-3 protein expression through the ERK1/2 and p38 MAPK signaling pathways.

Building highly active hybrid double-atom sites in C_(2)N for enhanced electrocatalytic hydrogen peroxide synthesis

Two-electron(2 e^(-))oxygen reduction reaction(ORR)shows great promise for on-site electrochemical synthesis of hydrogen peroxide(H_(2)O_(2)).However,it is still a great challenge to design efficient electrocatalysts for H_(2)O_(2)synthesis.To address this issue,the logical design of the active site by controlling the geometric and electronic structures is urgently desired.Therefore,using density functional theory(DFT)computations,two kinds of hybrid double-atom supported on C_(2)N nanosheet(RuCu@C_(2)N and PdCu@C_(2)N)are screened out and their H_(2)O_(2)performances are predicted.PdCu@C_(2)N exhibits higher activity for H_(2)O_(2)synthesis with a lower overpotential of 0.12 V than RuCu@C_(2)N(0.59 V),Ru_(3)Cu(110)facet(0.60 V),and PdCu(110)facet(0.54 V).In aqueous phase,the adsorbed O_(2)is further stabilized with bulk H_(2)0 and the thermodynamic rate-determining step of 2 e^(-) ORR change.The activation barrier on PdCu@C_(2)N is 0.43 eV lower than the one on RuCu@C_(2)N with 0.68 eV.PdCu@C_(2)N is near the top of 2 e^(-) ORR volcano plot,and exhibits high selectivity of H_(2)O_(2.)This work provides guidelines for designing highly effective hybrid double-atom electrocatalysts(HDACs)for H_(2)O_(2)synthesis.

Therapeutic effect of hydrogen peroxide via altered expression of glutathione S-transferase and peroxiredoxin-2 in hepatocellular carcinoma

Background:Hepatocellular carcinoma(HCC)has a high incidence and mortality that epitomizes one of the prominent causes of cancer-related death globally.Novel therapeutic approaches are therefore required.Reactive oxygen species(ROS)are necessary for maintaining cell cycle.Although ROS is involved in HCC progression,hydrogen peroxide(H2O2)has anti-proliferative effect on HCC.Method:HCC Huh-7 cells were cultured and incubated with various concentrations of H2O2.Paraoxonase activity,levels of malondialdehyde,glutathione and protein oxidation were measured in treated and untreated Huh-7 cells.Furthermore,untreated and treated Huh-7 cells were subjected to two dimensional gel electrophoresis and identified protein spots which were differentially expressed by LC-MS/MS analysis.q RT-PCR was performed to validate the identified proteins.Results:H2O2 depleted glutathione(GSH)with the concomitant up-regulation of GSTP1 and Prx2.H2O2 also increased malondialdehyde and protein oxidation,decreased the activity of paraoxonase in Huh-7 cells.Conclusion:H2O2 could be used as a novel therapeutic agent that might be beneficial in inducing cell cytotoxicity and hence suppress HCC proliferation.

Different Performances of H_2O_2 to Oxidise Aldicarb and Hexazinone in the Advanced Oxidation Process of Ozone/Hydrogen Peroxide

The degradations of hexazinone and aldicarb by direct ozonation combined an advanced oxidation process( AOP) of O3/H2O2 were investigated in this study focusing on the oxidation mechanism by identifying the hydrogen peroxide consumption during the oxidation process of the two chemicals. The results showed that H2O2 could enhance the removal rate of the triazine herbicide hexazinone,and it was consumed along with the variation of removal rate in the light of different pH levels. The addition of H2O2 contributed little to the removal of the thiocarbamate herbicide aldicarb and H2O2 content kept constantly throughout the degradation process. Tert-butyl alcohol( TBA) effectively scavenged the ·OH radical for hexazinone,but had no effect on the removal rate of aldicarb. Aldicarb removal was mainly attributed to direct ozonation molecule in both O3( 97.00%) and O3/H2O2( 96.76%)systems. Moreover,sole O3 could hardly oxidize hexazinone whereas·OH radicals contribute respective 74.70% and 97.50% of removal in O3 system and O3/H2O2 AOP. All of these findings suggest that the mechanism of ·OH radical generation and the chain reaction in O3/H2O2 AOP should be further discussed.

Oxidative Desulfurization of Diesel Fuel with Hydrogen Peroxide Using Na_2WO_4 as Catalyst

Oxidative desulfurization was performed on Na2WO4 catalyst in the presence of hydrogen peroxide and acetic acid under mild reaction conditions （atmospheric pressure and temperature range of 293--343 K）. Different organic compounds including benzothiophene （BT）, dibenzothiophene （DBT）, 4, 6-dimethyl dibenzothiophene （4, 6-DMDBT） were used to investigate the reactivity of this catalyst, and the effect of various parameters, such as temperature, solvents and the amount of oxidant reagent used in oxidative desulfurization reaction, was also examined. The results showed that the Na2WO4- H202 system was very effective for oxidative desulfurization, and the oxidation of BT, DBT and 4, 6-DMDBT was influenced by different parameters.

Flower-like tin oxide membranes with robust three-dimensional channels for efficient removal of iron ions from hydrogen peroxide

Membrane technology has become the mainstream process for the production of electronic grade hydrogen peroxide(H_(2)O_(2)).But due to the oxidation degradation of the organic membranes(e.g.polyamide)by the strong oxidative radicals(e.g.OH)generated via the activation of H_(2)O_(2)by iron ions(Fe^(3+)),the short effective lifetime of membranes remains a challenge.Inorganic nano tin oxide(SnO_(2))has great potential for the removal of Fe^(3+)in strongly oxidative H_(2)O_(2)because of its ability to stabilize H2O_(2)and preferentially adsorb Fe^(3+).Herein,we have designed for the first time a flower-like robust SnO_(2)membrane on the ceramic support by in situ template-free one-step hydrothermal method.The three-dimensional loose pore structure in the membrane built by interlacing SnO_(2)nanosheets endows the SnO_(2)membrane with a high specific surface area and abundant adsorption sites(AOH).Based on the coordination complexation and electrostatic attraction between the SnO_(2)surface and Fe^(3+),the membrane shows a high Fe3+removal efficiency(83%)and permeability(24 L·m^(-2)·h^(-1)·MPa^(-1))in H_(2)O_(2).This study provides an innovative and simple approach to designing robust SnO_(2)membranes for highly efficient removal of Fe^(3+)in harsh environments,such as strong oxidation conditions.

Transition Metal Oxides/Chalcogenides for Electrochemical Oxygen Reduction into Hydrogen Peroxides

Electrochemical oxygen reduction reaction via the two-electron pathway(2e-ORR)is becoming a promising and sustainable approach to producing hydrogen peroxide(H_(2)O2)without significant carbon footprints.To achieve better performance,most of the recent progress and investigations have focused on developing novel carbon-based electrocatalysts.Nevertheless,the sophisticated preparations,decreased selectivity and undefined active sites of carbon-based catalysts have been generally acknowledged and criticized.To this end,transition metal oxides and chalcogenides have increasingly emerged for 2e-ORR,due to their catalytic stability and tunable microstructure.Here,the development of metal oxides and chalcogenides for O2-to-H_(2)O2 conversion is prospectively reviewed.By summarizing previous theoretical and experimental efforts,their diversity and outstanding catalytic activity are firstly provided.Meanwhile,the topological and chemical factors influencing 2e-ORR selectivity of the metal oxides/chalcogenides are systematically elucidated,including morphology,phase structures,doping and defects engineering.Thus,emphasizing the influence on the binding of ORR intermediates,the active sites and the underlying mechanism is highlighted.Finally,future opportunities and challenges in designing metal oxides/chalcogenides-based catalysts for H_(2)O2 electro-synthesis are outlined.The present review provides insights and fundamentals of metal oxides/chalcogenides as 2e-ORR catalysts,promoting their practical application in the energy-related industry.

Polysaccharide extracts of Cirsium japonicum protect rat H9c2 myocardial cells from oxidative stress induced by hydrogen peroxide

Daji （Cirsium japonicum） has been applied against gastric disorders, lung diseases, and cardiovascular problems in thetraditional Chinese medicinal system. The present study was to investigate the protective effects of Daji （Cirsiumjaponicum） polysaccharide extracts （CJP） against hydrogen peroxide （H2O2） shock in rat H9c2 myocardial cells. First,CJP was isolated by hot water extraction and ethanol precipitation; it was then characterized by high performance liquidchromatography and infrared spectrum analysis. Rat H9c2 cells were subjected to H2O2 treatment to establish a cellinjury model. The 3- （4,5- dimethylthiazol- 2-yl）-2,5- diphenyltetrazolium bromide assay showed that CJP pretreatmentsignificantly ameliorated the H2O2 injury in a dose-dependent manner. Furthermore, the cell apoptosis induced by H2O2was markedly inhibited by CJP pretreatment, whereas the cleavage level of caspase-3, -8, and -9 was reduced. Inaddition, the p38 mitogen-activated protein kinase pathway might be involved in the protective effect of CJP onmyocardial cells. Therefore, we conclude that polysaccharide extracts of Daji （Cirsium japonicum） protect rat H9c2myocardial cells from oxidative stress induced by H2O2.

格列本脲对H_(2)O_(2)诱导的缺氧心肌细胞水肿及SUR1-TRPM4通道和AQP4表达的影响

目的探讨格列本脲对H_(2)O_(2)诱导的缺氧心肌细胞水肿及SUR1-TRPM4通道和AQP4表达的影响。方法将大鼠心肌H9C2细胞分为对照组、格列本脲低剂量组、格列本脲高剂量组、格列本脲高剂量+CIM2016(SUR1-TRPM4通道激活剂)组;MTT染色法检测细胞存活率;透射电镜观察细胞水肿超微结构变化;试剂盒检测MDA、SOD、CAT含量;qRT-PCR检测5组细胞SUR1、TRPM4、AQP4的基因表达水平;western blot检测细胞中SUR1、TRPM4、AQP4、BAX、BCL-2蛋白表达水平。结果与对照组比较,模型组H9C2细胞体积明显肿胀增大,细胞存活率、细胞SOD、CAT活性、BCL-2蛋白表达显著降低(P<0.05),MDA含量、细胞SUR1 mRNA、TRPM4 mRNA、AQP4 mRNA表达,细胞SUR1、TRPM4、AQP4、BAX蛋白表达显著升高(P<0.05);与模型组比较,格列本脲低、高剂量组H9C2细胞体积肿胀程度减轻,细胞存活率、细胞SOD、CAT活性、BCL-2蛋白表达显著升高(P<0.05),MDA含量、细胞SUR1 mRNA、TRPM4 mRNA、AQP4 mRNA表达,细胞SUR1、TRPM4、AQP4、BAX蛋白表达显著降低(P<0.05);CIM2016可部分逆转格列本脲对H_(2)O_(2)诱导的缺氧心肌细胞水肿的改善作用(P<0.05)。结论格列本脲可改善H_(2)O_(2)诱导的缺氧心肌细胞水肿,提高细胞存活率,抑制SUR1-TRPM4通道和AQP4表达。

绞股蓝多糖对H_(2)O_(2)损伤小鼠卵母细胞及线粒体的保护作用

【目的】探究绞股蓝多糖(Gynostemma penttaphyllum polysaccharides,GPP)对过氧化氢(H_(2)O_(2))损伤小鼠卵母细胞及线粒体的保护作用。【方法】用H_(2)O_(2)构建小鼠卵母细胞体外成熟氧化应激模型,并对GPP添加浓度进行筛选。将收集的小鼠MⅡ期卵母细胞随机分为空白对照组、H_(2)O_(2)组(在成熟培养液中添加H_(2)O_(2))和H_(2)O_(2)+GPP组(在含H_(2)O_(2)的成熟培养液中添加GPP)。体外受精后统计卵母细胞的卵裂率、4-细胞率、8-细胞率、桑椹胚率和囊胚率;利用线粒体红色荧光探针(Mito Tracker Red CMXRos)检测小鼠卵母细胞线粒体分布及含量,采用Jc-1线粒体膜电位检测试剂盒检测线粒体膜电位,利用ATP检测试剂盒检测线粒体ATP含量,通过免疫荧光染色观察小鼠卵母细胞纺锤体形态和染色体分布。【结果】H_(2)O_(2)+GPP组卵母细胞的卵裂率、4-细胞率、8-细胞率、桑椹胚率、囊胚率、线粒体含量、线粒体膜电位和ATP含量均显著高于H_(2)O_(2)组(P<0.05),纺锤体异常率和染色体异常率均显著低于H_(2)O_(2)组(P<0.05),与对照组间差异均不显著(P>0.05)。【结论】GPP可提高H_(2)O_(2)损伤小鼠卵母细胞体外受精的卵裂率和囊胚率,增加卵母细胞内线粒体含量、线粒体正常分布、线粒体膜电位、ATP含量,降低纺锤体形态异常、染色体形态异常和排列紊乱,从而减少线粒体的功能障碍。

H_(2)O_(2)改性香蕉秆生物炭的结构变化及对玉米幼苗Cr吸收的影响

为研究过氧化氢(H_(2)O_(2))对香蕉秆生物炭的改性效果及改性后生物炭对铬(Cr)胁迫下玉米Cr吸收的影响,采用不同浓度H_(2)O_(2)对300℃下制备的生物炭进行改性,分析其结构特征的差异,并将改性生物炭应用于Cr胁迫下的玉米生长体系中,研究改性生物炭对Cr胁迫下玉米植株生长及Cr吸收积累的影响。结果表明:随着H_(2)O_(2)浓度的升高,生物炭表面含氧官能团数量增多,其芳香性减弱、极性增强。改性后生物炭表面光滑,孔直径增大,其比表面积和孔隙体积随H_(2)O_(2)浓度的升高而减小。20%、30%H_(2)O_(2)改性生物炭主要通过官能团的吸附作用固定重金属,降低其生物活性,减少玉米对Cr的吸收积累。20%、30%H_(2)O_(2)明显改变生物炭的表面结构,有利于缓解重金属Cr对玉米植株的毒害,30%H_(2)O_(2)改性生物炭对Cr胁迫下玉米的生长具有促进作用。

Effect of hydrogen peroxide concentration on surface properties of Ni-Cr alloys

The effect of concentration of hydrogen peroxide （H2O2） on the surface properties of Ni-Cr alloys was studied. Surface roughness and surface morphology of Ni-Cr alloys were evaluated by surface profiler and scanning electron microscopy after being immersed in different concentrations of H2O2 for 112 h. Surface corrosion products of Ni-Cr alloys were analyzed by photoelectron spectrograph after being immersed in 0% and 30% H2O2. The order of increasing surface roughness of Ni-Cr alloys after being immersed in different concentrations of H2O2 was 0〈3.6%〈10%〈30%. As the concentration of hydrogen peroxide increased, the surface roughness of Ni-Cr alloys increased and the surface morphology showed different degrees of corrosion. According to the XPS results, the corrosion products formed on the outmost surface layer of the studied samples are Ni（OH）2 and BeO.

Relationship between the Hypersensitive Response of Wheat to Blumeria graminis f. sp. tritici and Hydrogen Peroxide,Three Enzyme Activities Changes

[Objective] The research aimed to study the relationship between the hypersensitive response of wheat to Blumeria graminis f.sp.tritici and hydrogen peroxide,3 enzyme activities changes and lay the foundation for discussing the resistant physiological mechanism of wheat to B.graminis.[Method] Taking B.graminis Bgt 17 and Bgt 6 and wheat cultivar Yang 158 as test materials,the number of hypersensitive cells and activities of POD,PPO and SOD in wheat leaves treated by H2O2 were determined.[Result] The mastoid...

Effect of Exogenous Hydrogen Sulfide(H_2S) on the Electrocardiogram(ECG) of Rats Generally Anaesthetized by Zoletil

Hydrogen sulfide （H2S） is the third gaseous signaling molecule discovered in recent years, and plays an important physiological role in the cardivascular system. To explore the effects of different doses of exogenous H2S on the electrocardiogram （ECG） of rats generally anesthetized by zoletil, different doses of NariS solution were used for the intervention of intraperitoneal injection 20 rain before the zoletil anesthesia. The ECGs of rats from each treatment group during the time range of 10^th-50^th min were determined under general anesthesia, and then were compared with those from the control group. The results showed that exogenous H2S could significantly reduce the Q-T interval time limit, thus played a role in slowing tachycardia or arrhythmia and other anomalies, thereby protecting the heart. S-T segment and T segment evaluation values were significantly reduced, which might be associated with bradycardia.

Pilot Test of Preparing 2-Alkylanthraquinone Using Alkylation-Oxidation Technology

To expedite the development of industrial technology for producing 2-alkylanthraquinone,a novel pilot test of alkylation-oxidation technology was conducted.The process mainly included anthracene alkylation,separation of anthracene and 2-alkylanthracene,oxidation of 2-alkylanthracene,and product purification.Optimal alkylation conditions yielded a 91.1%conversion of anthracene and a 71.73%selectivity for 2-alkylanthracene.To address the separation problem of anthracene and 2-alkylanthracene,solvent-assisted distillation technology was developed,resulting in a 98.9%purity of 2-alkylanthracene and a 91.82%separation yield.When the molar ratio of H2O_(2) to 2-alkylanthracene was 7:1,a 98.96%conversion of 2-alkylanthracene and a 99.94%selectivity for 2-alkylanthraquinone were achieved.A novel composition of 2-alkylanthraquinone,including 2-tert-butylanthraquinone,2-tert-amylanthraquinone,and 2-hexylanthraquinone,was developed.This composition could be effectively separated and purified through a combination of crystallization and washing processes.The elemental composition of the product met the existing standards,and its hydrogenation performance closely matched that of commercially available 2-tert-amylanthraquinone products.

C6H10S2O联合Nano-CaCO3对铅染毒小鼠海马学习记忆功能的影响

评价 C6H10S2O联合Nano-CaCO3对铅染毒小鼠的海马学习记忆功能产生的影响,以指导铅染毒相关问题的处理。方法 选择齐齐哈尔医学院动物实验中心提供的20-30g 健康雌性 KM 小鼠,健康清洁级,分为正常对照组、模型对照组、C6H10S2O 组、Nano-CaCO3组、联合治疗组,其中后四组均为铅染毒模型。五组的饲养条件相同,方法 /剂量建立铅染毒模型,提供对应治疗方法,通过评估体质量与血液中铅元素含量、NO含量和ACHE活力、水迷宫、新物体识别测量的结果,判断治疗效果。结果 与空白对照组比较,模型对照组的体质量显著降低(P<0.05),血铅含量显著增加(P<0.05);与模型对照组比较,C6H10S2O组和联合治疗组小鼠的体质量显著提高(P<0.05),而血铅含量仅在联合治疗组显著减少(P<0.05);其他三组的体质量和血铅含量均无统计学差异(P>0.05)。与模型对照组比较,联合治疗组的跨越隐匿平台次数和平台象限游泳路程显著增加(P<0.05);与Nano-CaCO3组比较,联合治疗组的跨越隐匿平台次数和平台象限游泳路程也显著增加(P<0.05)。五组在NO含量和ACHE活力、认知指数方面的对比,差异均不存在统计学意义(P>0.05)。结论 C6H10S2O联合Nano-CaCO3可以减少铅含量,提高体质量,对空间学习能力有一定影响,但对认知能力、学习记忆能力不存在显著影响。

微气泡O_(3)/H_(2)O_(2)深度处理某树脂厂二级出水效果与机制

针对传统生物降解对树脂废水中苯系物、聚乙烯醇等大分子有机物降解效果不好、达不到排放标准的问题,构建微气泡O_(3)/H_(2)O_(2)体系,对某树脂厂二级出水进行深度处理。对比了微气泡O_(3)曝气与普通O_(3)曝气的化学需氧量(COD)降解效果,考察了进气O_(3)浓度、H_(2)O_(2)浓度、初始pH对微气泡O_(3)/H_(2)O_(2)体系降解COD效果的影响,通过总有机碳验证体系的矿化效果,通过电子顺磁共振谱仪(EPR)检测微气泡O_(3)/H_(2)O_(2)体系中的活性物质,最后通过气相色谱质谱联用仪(GC-MS)分析降解前后废水中主要有机物的种类,并对微气泡O_(3)/H_(2)O_(2)体系降解COD的机制与路径进行分析。结果表明:1)微气泡O_(3)/H_(2)O_(2)体系中微气泡粒径主要分布在10~50μm,平均粒径为32.82μm;与普通O_(3)曝气方式进行对比,微气泡O_(3)体系对COD降解率更高,说明微气泡可以延长O_(3)气泡上升时间,增加O_(3)气泡比表面积,提高O_(3)传质系数和利用率。2)微气泡O_(3)/H_(2)O_(2)体系降解COD,当O_(3)浓度为60 mg/L、H_(2)O_(2)浓度为29.37 mmol/L、pH为7时,反应60 min后,微气泡O_(3)/H_(2)O_(2)体系对树脂厂二级出水的COD降解率为89.53%,处理后出水COD为15.05 mg/L,可达到GB 31572—2015《合成树脂工业污染物排放标准》。3)EPR试验表明,H_(2)O_(2)可以促进微气泡O_(3)体系产生更多的超氧自由基(·O_(2)^(-))和羟基自由基(·OH),从而提高体系的氧化能力和对COD的降解效果。根据GC-MS结果推断O_(3)/H_(2)O_(2)体系降解COD的可能路径,即树脂厂二级出水以长链烷烃和环烷烃类为主的大分子物质在O_(3)的作用下断链、开环,在·OH等自由基的作用下矿化或降解为以小分子有机酸为主的小分子物质。

前置O_(3)/H_(2)O_(2)-生物炭流化床在水厂提标工程中的设计应用

山东L水厂设计规模为12万m^(3)/d,提标改造前,水厂以常规处理工艺为主,并采用投加高锰酸钾和粉末活性炭来去除原水中的2-甲基异莰醇(2-MIB)和土臭素(GSM),但仅可应对2-MIB质量浓度不高于80 ng/L的情形。为满足新版《生活饮用水卫生标准》(GB 5749—2022)、提高供水水质,建成了前置臭氧/双氧水(O_(3)/H_(2)O_(2))-生物炭流化床工艺,创新性地将深度处理工艺置于常规处理工艺之前以去除嗅味物质,并降低有机物、藻类等对常规处理工艺的影响,提升整体工艺处理效率。提标改造后,在原水2-MIB质量浓度不高于600 ng/L时,滤池出水2-MIB质量浓度降至5 ng/L以下,高锰酸盐指数、浑浊度、颗粒数等水质指标亦有大幅度降低。同时,水厂停止投加粉末活性炭与高锰酸钾,减少了聚合氯化铝(PAC)与次氯酸钠投加量,并关停了气浮工艺,吨水制水成本降低了0.129~0.171元,为同类水厂提标改造提供了工程经验和案例支撑。

A dendritic Cu/Cu_(2)O structure with high curvature enables rapid and efficient reduction of carbon dioxide to C_(2) in an H-cell

Electrocatalytic reduction of CO_(2)(CO_(2)RR)to multicarbon products is an efficient approach for ad-dressing the energy crisis and achieving carbon neutrality.In H-cells,achieving high-current C_(2)products is challenging because of the inefficient mass transfer of the catalyst and the presence of the hydrogen evolution reaction(HER).In this study,dendritic Cu/Cu_(2)O with abundant Cu^(0)/Cu^(+)interfaces and numerous dendritic curves was synthesized in a CO_(2)atmosphere,resulting in the high selectivity and current density of the C_(2)products.Dendritic Cu/Cu_(2)O achieved a C_(2)Faradaic efficiency of 69.8%and a C_(2)partial current density of 129.5 mA cm^(-2)in an H-cell.Finite element simulations showed that a dendritic structure with a high curvature generates a strong electric field,leading to a localized CO_(2)concentration.Additionally,DRT analysis showed that a dendritic struc-ture with a high curvature actively adsorbed the surrounding high concentration of CO_(2),enhancing the mass transfer rate and achieving a high current density.During the experiment,the impact of the electronic structure on the performance of the catalyst was investigated by varying the atomic ratio of Cu^(0)/Cu^(+) on the catalyst surface,which resulted in improved ethylene selectivity.Under the optimal atomic ratio of Cu^(0)/Cu^(+),the charge transfer resistance was minimized,and the desorption rate of the intermediates was low,favoring C_(2) generation.Density functional theory calculations indicated that the Cu^(0)/Cu^(+) interfaces exhibited a lower Gibbs free energy for the rate-determining step,enhancing C_(2)H_(4) formation.The Cu/Cu_(2)O catalyst also exhibited a low Cu d-band center,which enhanced the adsorption stability of *CO on the surface and facilitated C_(2)formation.This observa-tion explained the higher yield of C_(2) products at the Cu^(0)/Cu^(+) interface than that of H_(2) under rapid mass transfer.The results of the net present value model showed that the H-cell holds promising industrial prospects,contingent upon it being a catalyst with both high selectivity and high current density.This approach of integrating the structure and composition provides new insights for ad-vancing the CO_(2)RR towards high-current C_(2) products.

Simultaneous hydrogen and peroxide production by photocatalytic water splitting

Photocatalytic oxidation of water is a promising method to realize large-scale H2O2 production without a hazardous and energy-intensive process. In this study, we introduce a Pt/TiO2(anatase) photocatalyst to construct a simple and environmentally friendly system to achieve simultaneous H2 and H2O2 production. Both H2 and H2O2 are high-value chemicals, and their separation is automatic. Even without the assistance of a sacrificial agent, the system can reach an efficiency of 7410 and 5096 μmol g^-1 h^–1 (first 1 h) for H2 and H2O2, respectively, which is much higher than that of a commercial Pt/TiO2(anatase) system that has a similar morphology. This exceptional activity is attributed to the more favorable two-electron oxidation of water to H2O2, compared with the four-electron oxidation of water to O2.