Selective deletion of zinc transporter 3 in amacrine cells promotes retinal ganglion cell survival and optic nerve regeneration after injury

Vision depends on accurate signal conduction from the retina to the brain through the optic nerve,an important part of the central nervous system that consists of bundles of axons originating from retinal ganglion cells.The mammalian optic nerve,an important part of the central nervous system,cannot regenerate once it is injured,leading to permanent vision loss.To date,there is no clinical treatment that can regenerate the optic nerve and restore vision.Our previous study found that the mobile zinc(Zn^(2+))level increased rapidly after optic nerve injury in the retina,specifically in the vesicles of the inner plexiform layer.Furthermore,chelating Zn^(2+)significantly promoted axonal regeneration with a long-term effect.In this study,we conditionally knocked out zinc transporter 3(ZnT3)in amacrine cells or retinal ganglion cells to construct two transgenic mouse lines(VGAT^(Cre)ZnT3^(fl/fl)and VGLUT2^(Cre)ZnT3^(fl/fl),respectively).We obtained direct evidence that the rapidly increased mobile Zn^(2+)in response to injury was from amacrine cells.We also found that selective deletion of ZnT3 in amacrine cells promoted retinal ganglion cell survival and axonal regeneration after optic nerve crush injury,improved retinal ganglion cell function,and promoted vision recovery.Sequencing analysis of reginal ganglion cells revealed that inhibiting the release of presynaptic Zn^(2+)affected the transcription of key genes related to the survival of retinal ganglion cells in postsynaptic neurons,regulated the synaptic connection between amacrine cells and retinal ganglion cells,and affected the fate of retinal ganglion cells.These results suggest that amacrine cells release Zn^(2+)to trigger transcriptomic changes related to neuronal growth and survival in reginal ganglion cells,thereby influencing the synaptic plasticity of retinal networks.These results make the theory of zinc-dependent retinal ganglion cell death more accurate and complete and provide new insights into the complex interactions between retinal cell networks.

纳米晶PbTiO_3负载CuO催化NO分解

A large specific surface area perovskite-type mixed oxide PbTiO3 supported cupric oxide was synthesized as a catalyst for NO decomposition and characterized by techniques such as XPS, XRD, H2-TPR before and after NO decomposition reactions. The catalytic properties were tested with a fix-bed micro-reactor. The results showed that the PbTiO3 was inactive for the reactions, but 1wt % Cu/PbTiO3 catalyst gave fairly good activities for NO decomposition at temperature as low as 473 K. Copper species were found well-dispersed but weakly interacted with the support before NO decomposition, and the NO decomposition caused significant change in the environment of the copper species, which became Cu(Ⅰ)and most probably incorporated into surface crystal lattice of the nano-sized PbTiO3. In NO reaction, a large amount of oxygen atoms from the decomposition of NO penetrated into the nano-sized PbTiO3 support and caused small expansion of crystal lattice. The transport of oxygen between the copper species and the catalyst support may be helpful to speed up the kinetic regeneration of active metal sites from oxygen occupancy and resulted in good catalytic performance.

Design and Analysis of MEMS Based Aluminum Nitride (AlN), Lithium Niobate (LiNbO₃) and Zinc Oxide (ZnO) Cantilever with Different Substrate Materials for Piezoelectric Vibration Energy Harvesters Using COMSOL Multiphysics Software

Interest in energy harvesters has grown rapidly over the last decade. The cantilever shaped piezoelectric energy harvesting beam is one of the most employed designs, due to its simplicity and flexibility for further performance enhancement. The research effort in the MEMS Piezoelectric vibration energy harvester designed using three types of cantilever materials, Lithium Niobate (LiNbO3), Aluminum Nitride (AlN) and Zinc Oxide (ZnO) with different substrate materials: aluminum, steel and silicon using COMSOL Multiphysics package were designed and analyzed. Voltage, mechanical power and electrical power versus frequency for different cantilever materials and substrates were modeled and simulated using Finite element method (FEM). The resonant frequencies of the LiNbO3/Al, AlN/Al and ZnO/Al systems were found to be 187.5 Hz, 279.5 Hz and 173.5 Hz, respectively. We found that ZnO/Al system yields optimum voltage and electrical power values of 8.2 V and 2.8 mW, respectively. For ZnO cantilever on aluminum, steel and silicon substrates, we found the resonant frequencies to be 173.5 Hz, 170 Hz and 175 Hz, respectively. Interestingly, ZnO/steel yields optimal voltage and electrical power values of 9.83 V and 4.02 mW, respectively. Furthermore, all systems were studied at different differentiate frequencies. We found that voltage and electrical power have increased as the acceleration has increased.

Heteroatoms doped iron oxide-based catalyst prepared from zinc slag for efficient selective catalytic reduction of NOx with NH3

Excessive emissions of nitrogen oxides from flue gas have imposed various detrimental impacts on environment,and the development of deNO_(x) catalysts with low-cost and high performance is an urgent requirement.Iron oxide-based material has been explored for promising deNO_(x) catalysts.However,the unsatisfactory low-temperature activity limits their practical applications.In this study,a series of excellent low-temperature denitrification catalysts(Ha-FeO_(x)/yZS)were prepared by acid treatment of zinc slag,and the mass ratios of Fe to impure ions was regulated by adjusting the acid concentrations.Ha-FeO_(x)/yZS showed high denitrification performance(>90%)in the range of 180–300°C,and the optimal NO conversion and N2 selectivity were higher than 95%at 250°C.Among them,the Ha-FeO_(x)/2ZS synthesized with 2 mol/L HNO3 exhibited the widest temperature window(175–350°C).The excellent denitrification performance of Ha-FeO_(x)/yZS was mainly attributed to the strong interaction between Fe and impurity ions to inhibit the growth of crystals,making Ha-FeO_(x)/yZS with amorphous structure,nice fine particles,large specific surface area,more surface acid sites and high chemisorbed oxygen.The in-situ DRIFT experiments confirmed that the SCR reaction on the Ha-FeO_(x)/yZS followed both Langmuir-Hinshelwood(L-H)mechanism and Eley-Rideal(E-R)mechanism.The present work proposed a high value-added method for the preparation of cost-effective catalysts from zinc slag,which showed a promising application prospect in NO_(x) removal by selective catalytic reduction with ammonia.

Ba/Fe双掺LaCoO_(3)热敏陶瓷材料低温离子传输机制研究

为了开发电学性能优异的深低温材料,采用传统高温固态法制备了Ba/Fe双掺杂的LaCoO_(3)负温度系数热敏陶瓷材料,结合XRD、SEM、XPS等测试手段,研究了材料的物相结构、微观形貌、离子价态分布等,并在22—80 K和80—290 K范围内进行了低温电学性能测试。结果表明:双掺杂改性降低了LaCoO_(3)材料的应用温区,ρ(22 K)在1.85×10^(5)—6.94×10^(6)Ω·cm范围内变化,材料常数B(22—100 K)在146.09—162.75 K范围内变化;在深低温环境下,材料的导电机理由80 K以上时的小极化子跳跃导电转变为80 K以下时的双交换导电,导致了材料常数B发生突变。由此证明,该双掺杂热敏陶瓷材料在极低温测试中具有可开发的应用潜力。

水稻低亲和性阳离子转运蛋白基因OsLCT3的克隆与功能研究

【目的】部分稻米镉超标严重影响我国粮食质量安全,本研究旨在鉴定对稻米镉积累有调控作用的基因,为阻控稻米镉积累提供新的基因资源。【方法】通过逆转录PCR和RACE技术,克隆了水稻低亲和性阳离子转运蛋白基因家族的一个新成员OsLCT3。通过生物信息学方法对OsLCT3的自然变异进行分析,对OsLCT3蛋白的理化性质进行预测;利用实时荧光定量PCR分析其全生育期表达模式及对镉、锰、铁胁迫的响应;采用融合报告基因定位法探究OsLCT3的亚细胞定位。通过苗期镉胁迫水培以及镉污染土壤的成熟期植株各部位的镉及二价矿质金属元素测定,分析敲除OsLCT3对水稻二价阳离子运输的影响。此外,通过酵母细胞的异源功能互补验证OsLCT3对酵母镉耐受性的影响。【结果】OsLCT3仅存在于部分水稻品种中,编码区全长1263 bp,根据编码区变异其氨基酸序列可划分为5个单倍型,编码的蛋白具有12个跨膜结构域,与小麦、节节麦的LCT亲缘关系较近,与水稻OsLCT_(2)的同源性仅52%,与籼稻、粳稻两个亚种OsLCT_(1)的同源性分别为49%、47%。OsLCT3在生长发育的各时期均在根部高表达,在扬花期的表达最高,且在根部的表达受镉胁迫及过量铁、锰的抑制,蛋白定位于质膜。与野生型相比,oslct3敲除系苗期株高降低,地上部的镉、铁、锌含量降低,根部铁含量升高,其他元素含量不变;根部镉、铁、锌向地上部的转运率降低。大田条件下,oslct3敲除系成熟期的茎叶和糙米镉含量较野生型均显著下降,稻草和糙米锰、铜、铁、锌含量较对照无显著差异。表达OsLCT3导致酵母对镉胁迫更敏感。【结论】OsLCT3参与根部的镉、铁、锌向地上部的运输,正调控稻米镉积累。

二正丁基二硫代氨基甲酸锌配合物的量子化学研究

The geometric configurations of binuclear Zinc( complex Zn2[(n-Bu)2NCSS]4 and the ligand Na[(n-Bu)2 NCSS] have been optimized by B3LYP quantum chemical method. The electronic structures have been performed by density functional theory at B3LYP/6-31G* level. The electronic spectrums of the complex and ligand were calculated by ZINDO/S-CIS method. It is indicated from the calculation that: (1) The coordination effect of bridging ligand is bigger than that of chelating one, and the bridging ligands also translate more charge to Zn than the chelating one. (2) The calculated results about electronic spectrums are similarly to experimental measurement, and farther explain that absorption band at λ=267 nm of complex is assigned to two n → π* transitions :one arising from the bridging ligands and the another mainly arising from the chelating ligands;but absorption band at λ=236 nm of complex is assigned to π → π* transition which the electron mainly translates from the bridging ligands to the chelating ligands. (3) By consideration of delocalization and polar effects in coordination, the charge transfer from ligand to metal decreases the π-π and p-π conjugation effects in the chromophore group NCS2 and to increase the energy needed for the π → π* and n → π* transitions, and results in the absorption bands shifting towards the short wavelength direction.

锌离子电池锰基正极材料研究进展

可充电水系锌离子电池是一种环保且电化学性能优异的二次电池,但锰基正极材料在充放电过程中结构易坍塌、导电率低、稳定性差等缺点严重制约了水系锌离子电池的发展。笔者首先阐述了锰基正极材料中锌离子的储存机理,主要有Zn^(2+)嵌入/脱出机理、H+/Zn^(2+)共嵌入/脱出机理和化学转化反应机理。Zn^(2+)嵌入/脱出机理包括无相变反应和新相生成反应。而新相生成反应又分为可逆相变和不可逆相变。然后,基于锰基正极材料面临的问题,讨论了改善其储锌性能的主要方法。目前可采用的方法包括缺陷工程、与导电材料复合、离子掺杂、表面修饰技术等。用以上方法改进后的锰基正极材料表现出了更加优异的性能。

光激性ZnO@g-C_(3)N_(4)异质结的制备与可见光降解亚甲基蓝

以尿素和三聚氰胺为原材料,通过热聚合制备层状多孔g-C_(3)N_(4)材料。以醋酸锌为锌源,g-C_(3)N_(4)为基体材料,水热法制备异质结构ZnO@g-C_(3)N_(4)材料。利用X射线衍射、扫描电镜、透射电镜、荧光光谱和紫外/可见光漫反射光谱等手段对ZnO@g-C_(3)N_(4)材料进行表征。结果表明,g-C_(3)N_(4)和ZnO@g-C_(3)N_(4)具有多孔片层结构,并且ZnO均匀分布于片层g-C_(3)N_(4)表面,形成异质结构。荧光光谱说明ZnO@g-C_(3)N_(4)异质结构加快了电子和空穴的迁移,降低了电子和空穴的复合率。紫外/可见光漫反射光谱监测亚甲基蓝的特征峰变化,证明了ZnO@g-C_(3)N_(4)异质催化剂可有效降解亚甲基蓝染料。ZnO@g-C_(3)N_(4)催化后离心回收循环利用,多次循环后降解效率未明显降低,说明ZnO@g-C_(3)N_(4)可以重复利用。

Linking a Simulated Annealing Based Optimization Model with PHT3D Simulation Model for Chemically Reactive Transport Processes to Optimally Characterize Unknown Contaminant Sources in a Former Mine Site in Australia

Historical mining activities often lead to continuing wide spread contaminants in both groundwater and surface water in previously operational mine site areas. The contamination may continue for many years after closing down the mining activities. The essential first step for sustainable management of groundwater and development of remediation strategies is the unknown contaminant source characterization. In a mining site, there are multiple species of contaminants involving complex geochemical processes. It is difficult to identify the potential sources and pathways incorporating the chemically reactive multiple species of contaminants making the source characterization process more challenging. To address this issue, a reactive transport simulation model PHT3D is linked to a Simulated Annealing based the optimum decision model. The numerical simulation model PHT3D is utilized for numerically simulating the reactive transport process involving multiple species in the former mine site area. The simulation results from the calibrated PHT3D model are illustrated, with and without incorporating the chemical reactions. These comparisons show the utility of using a reactive, geochemical transport process’ simulation model. Performance evaluation of the linked simulation optimization methodology is evaluated for a contamination scenario in a former mine site in Queensland, Australia. These performance evaluation results illustrate the applicability of linked simulation optimization model to identify the source characteristics while using PHT3D as a numerical reactive chemical species’ transport simulation model for the hydro-geochemically complex aquifer study area.

胎盘体积结合葡萄糖转运蛋白3对胎儿生长受限的预测价值

目的探讨胎盘体积联合血清中葡萄糖转运蛋白3(GLUT3)对胎儿生长受限的预测价值。方法以我院2018年12月—2020年5月行MRI检查的100例胎儿生长受限的孕妇作为观察组,孕检正常的100例孕妇作为对照组。根据MRI检查获取受试者胎盘体积,并检测受试者血清GLUT3的水平;采用logistics回归模型构建胎盘体积与血清GLUT3联合诊断模型,应用ROC曲线下面积(AUC)评判胎盘体积和血清GLUT3独立或两者联合应用对胎儿生长受限的预测价值。结果两组孕妇胎盘体积和血清GLUT3水平比较差异均具有显著性(t=13.380、54.173,P<0.05)。以胎盘体积联合血清GLUT3预测胎儿生长受限的模型为Logit(P)=-0.647×胎盘体积+0.598×GLUT+0.431;胎盘体积联合血清GLUT3预测胎儿生长受限的灵敏度、特异度及AUC均明显高于单个指标(P<0.05)。结论胎盘体积联合血清GLUT3对胎儿生长受限具有一定的预测价值。

Zinc transporter-3 expression and long-term cognitive impairments in a rat model of neonatal concurrent seizure

BACKGROUND： Developmental seizures, which are pathologically characterized by regenerative sprouting of hippocampal mossy fibers, cause long-term damaging effects to synaptic plasticity. Zn^2＋ metabolism has been shown to contribute to the regenerative sprouting of hippocampal mossy fibers Furthermore, zinc transporter-3 （ZnT3） is responsible for Zn^2＋ transport in the hippocampal mossy fiber pathway. OBJECTIVE： To investigate the effects of long-term recurrent neonatal seizures on learning, memory formation and hippocampal ZnT3 expression in rats. DESIGN, TIME AND SETTING： Based on molecular biological research and behavioral examination a randomized, controlled, animal experiment was performed at the Laboratory Animal Center, Peking University Health Science Center, between October 2004 and July 2005. MATERIALS： Flurothyl was purchased from Aldrich Chemical Co., USA. ZnT3 mRNA in situ hybridization kits were provided by Tianjin Haoyang Biological Manufacture Co., Ltd., China. Morris water maze was produced by Shanghai Jiliang Science and Technology Co., Ltd., China. METHODS： Sixty, 6-day old, Wistar rats were randomly divided into three groups： single seizure （n = 21）, recurrent seizure （n = 21, one seizure daily for 6 consecutive days）, and control （n = 18）. Seizures were induced by flurothyl gas inhalation, in the single seizure and recurrent seizure groups. MAIN OUTCOME MEASURES： At postnatal days 12, 46 and 90, rat hippocampal ZnT3 mRNA expression was detected by RT-PCR; at postnatal days 46 and 90, ZnT3 mRNA expression was determined by in situ hybridization; and at postnatal days 41-46 and 85 90, rat spatial learning and memory formation were examined by the Morris water maze test. RESULTS： RT-PCR results revealed that at postnatal day 12, ZnT3 expression was significantly greater in the recurrent seizure group than in the control and single seizure groups, and at day 46, it was also significantly greater in the recurrent seizure group compared with the control group （P 〈 0.05）. In situ hybridization results showed that at postnatal day 46, the recurrent seizure group exhibited increased hippocampal ZnT3 expression over the control and single seizure groups （P〈0.05）. Morris water maze test results displayed that, in the first place navigation test at postnatal day 44, and the second test at days 87-88, the recurrent seizure group exhibited significantly higher value of average escape latency compared with the control group （P 〈 0.05）. In the two spatial probe tests, the search strategies were significantly inferior in the recurrent seizure group than in the control and single seizure groups （P 〈 0.05）. CONCLUSION： Neonatal concurrent seizures produce long-term damaging effects on hippocampal ZnT3 expression and cognitive function, while both of which have no parallel correlation.

熊果苷调节PI3K/Akt/GLUT1信号通路对胃癌细胞恶性进展的影响

目的 探讨熊果苷(Arb)调节磷脂酰肌醇-3激酶B/蛋白激酶B/葡萄糖转运蛋白1(PI3K/Akt/GLUT1)信号通路对胃癌细胞恶性进展的影响。方法 使用不同浓度(12.5、25、50、100、200、400 mol/L)Arb处理SNU-601细胞,检测细胞活性,筛选最佳浓度;将细胞分为对照组(Control组)、熊果苷低、中、高浓度组(L-Arb组、M-Arb组、H-Arb组)、熊果苷高浓度+PI3K/Akt激活剂组(H-Arb+740 Y-P组),分别检测细胞凋亡率、细胞周期、葡萄糖摄取、乳酸生成、ATP生成、细胞迁移数和细胞侵袭数;Western blot检测Bax、半胱氨酸天冬氨酸蛋白水解酶3(cleaved-caspase3)、B细胞淋巴瘤-2(Bcl-2)、p-PI3K、PI3K、p-Akt、Akt、GLUT1、HKⅡ蛋白表达。结果 12.5~400 mol/L的Arb可显著抑制SNU-601细胞增殖,选择50、100、200 mol/L的Arb进行后续实验。与Control组比较,L-Arb组、M-Arb组、H-Arb组细胞活性、葡萄糖摄取、乳酸生成、ATP生成、细胞迁移数、细胞侵袭数及Bcl-2、p-PI3K/PI3K、p-Akt/Akt、GLUT1、HKⅡ蛋白表达降低,细胞凋亡率和Bax、cleaved-caspase3蛋白表达增加(P<0.05);与H-Arb组比较,H-Arb+740 Y-P组细胞活性、葡萄糖摄取、乳酸生成、ATP生成、细胞迁移数、细胞侵袭数及Bcl-2、p-PI3K/PI3K、p-Akt/Akt、GLUT1、HKⅡ蛋白表达增加,细胞凋亡率和Bax、cleaved-caspase3蛋白表达降低(P<0.05)。结论 Arb通过抑制PI3K/Akt/GLUT1信号通路抑制胃癌细胞恶性进展。

Low glucose metabolism in hepatocellular carcinoma with GPC3 expression

AIM To investigate the relationship between glucose metabolism and glypican-3(GPc3)expression in hepatocellular carcinoma(Hcc).METHODSImmunohistochemical staining of pathological samples for GPc3 and glucose transporter 1(GLUT1),and whole-body ^(18)F-FDG PET/c T for measuring tumour glucose uptake were performed in 55 newly diagnosed Hcc patients.The maximum standard uptake value(s UVmax)and tumour-to-non-tumourous liver uptake(T/NT)ratio were used to quantify ^(18)F-FDG uptake.In vitro ^(18)F-FDG uptake assay of GPc3-expressing Hep G2 and non-GPc3-expressing RH7777 cel ls was used to examine the effect of GPc3 in cellular glucose metabolism.The relationships between GPc3 expression and ^(18)F-FDG uptake,GLUT1 expression,tumour differentiation,and other clinical indicators were analysed using spearman rank correlation,univariateand multiple logistic regression analyses.RESULTSPositive GPc3 expression was observed in 67.3%of Hcc patients,including 75.0%of those with well or moderately differentiated Hcc and 36.4%of those with poorly differentiated Hcc.There was an inverse relationship between GPc3 expression and s UVmax(Spearman correlation coefficient=-0.281,P=0.038)and a positive relationship between GLUT1 expression and sU Vmax(Spearman correlation coefficient=0.681,P<0.001)in patients with Hcc.Univariate analysis showed that two glucose metabolic parameters(sU Vmax and T/NT ratio),tumour differentiation,lymph node metastasis,and TNM stage were all significantly associated with GPc3 expression(P<0.05),whereas GLUT1 expression,sex,age,tumour size,intrahepatic lesion number,and distant metastasis showed no statistical association(P>0.05).Further multivariate analysis revealed that only the T/N ratio was significantly correlated with GPC3 expression in patients with Hcc(P<0.05).In vitro assay revealed that the uptake of ^(18)F-FDG in GPc3-expressing HepG2 cells was significantly lower than that of non-GPc3-expressing RH7777 cells(t=-20.352,P<0.001).CONCLUSIONThe present study demonstrated that GPc3 expression is inversely associated with glucose metabolism,suggesting that GPc3 may play a role in regulating glucose metabolism in Hcc.

An aqueous BiI_(3)-Zn battery with dual mechanisms of Zn^(2+)(de)intercalation and I^(-)/I_(2)redox

The development of aqueous battery with dual mechanisms is now arousing more and more interest.The dual mechanisms of Zn^(2+)(de)intercalation and I^(-)/I_(2)redox bring unexpected effects.Herein,differing from previous studies using Zn I_(2)additive,this work designs an aqueous Bi I_(3)-Zn battery with selfsupplied I^(-).Ex situ tests reveal the conversion of Bi I_(3)into Bi(discharge)and Bi OI(charge)at the 1st cycle and the dissolved I^(-)in electrolyte.The active I^(-)species enhances the specific capacity and discharge medium voltage of electrode as well as improves the generation of Zn dendrite and by-product.Furthermore,the porous hard carbon is introduced to enhance the electronic/ionic conductivity and adsorb iodine species,proven by experimental and theoretical studies.Accordingly,the well-designed Bi I_(3)-Zn battery delivers a high reversible capacity of 182 m A h g^(-1)at 0.2 A g^(-1),an excellent rate capability with 88 m A h g^(-1)at 10 A g^(-1),and an impressive cyclability with 63%capacity retention over 20 K cycles at 10 A g^(-1).An excellent electrochemical performance is obtained even at a high mass loading of 6 mg cm^(-2).Moreover,a flexible quasi-solid-state Bi I_(3)-Zn battery exhibits satisfactory battery performances.This work provides a new idea for designing high-performance aqueous battery with dual mechanisms.

BaSnO_(3)电子传输层在量子点太阳能电池中的应用

电子传输层作为新型薄膜太阳电池重要组成部分承担光生电子的传输角色。研究通过简单共沉淀法合成尺寸分布较好的三元BaSnO_(3)(简称BSO)纳米晶,考察了不同热处理温度对BSO相形成影响规律,XRD测试结果表明:升高温度有利于降低纳米晶中碳酸钡等杂质含量,提高BSO纳米晶相纯度。将合成的BSO纳米晶首次作为电子传输层材料应用于PbS胶体量子点太阳能电池中,在1200℃(2 h)条件下合成的BSO纳米晶对应器件性能优于商业TiO2纳米晶对照组,这主要得益于BSO/PbS量子点界面电荷的高效萃取和低复合。对应同批次最佳器件的性能为:Jsc=25.199 mA·cm^(−2)、Voc=0.480 V、FF=0.534及PCE=6.454%,且表现出良好的工作稳定性。该工作证实BaSnO_(3)纳米材料可作为量子点太阳电池电子传输材料使用,为今后进一步提升同类型器件的性能提供参考。

氮掺杂碳纳米管包覆Fe_(0.64)Ni_(0.36)@Fe_(3)NiN核壳结构用于高稳定锌-空气电池

可逆锌-空气电池因其高功率密度和环境友好性而得到了广泛研究。然而,氧还原反应(ORR)和氧析出反应(OER)的缓慢动力学限制了其实际应用。迄今为止,二氧化铱和二氧化钌被认为是氧还原反应的最佳电催化剂,同时铂碳被认为是最有效的氧还原反应的电催化剂。然而,由于Pt、Ir和Ru的天然丰度低、成本高的原因,它们在ZABs中的实际应用严格受限。因此,探索低成本和高性能的双功能催化剂对促进可充电锌-空气电池的发展至关重要。具有高导电性、低氧还原反应能垒的过渡金属合金可作为有潜力的氧还原电催化剂。然而,为提高过渡金属合金催化剂的双功能催化活性,可构筑过渡金属合金@过渡金属氮化物的核壳结构。在此,我们设计了一种氮掺杂碳纳米管包覆Fe_(0.64)Ni_(0.36)@Fe_(3)NiN核壳结构(Fe_(0.64)Ni_(0.36)@Fe_(3)NiN/NCNT)的双功能电催化剂,其具有高效的双功能催化活性。核壳结构可以为ORR/OER产生更多的活性点。Fe_(0.64)Ni_(0.36)核具有高导电性,有助于电荷转移。Fe_(3)NiN壳有助于提升催化剂的OER性能。氮掺杂碳纳米管不仅能够有效增强传质效应和内部电荷传递,还可以提升其电化学活性表面积。此外,具有高抗腐蚀性能的Fe_(3)NiN外壳可以有效地保护Fe_(0.64)Ni_(0.36)内核,从而提高了电化学过程中催化剂的稳定性。氮掺杂碳纳米管对Fe_(0.64)Ni_(0.36)@Fe_(3)NiN核壳结构也具有一定的保护作用,因此Fe_(0.64)Ni_(0.36)@Fe_(3)NiN/NCNT表现出优异的稳定性。Fe_(0.64)Ni_(0.36)@Fe_(3)NiN/NCNT催化剂表现出优异的双功能氧电催化性能,ORR的半波电位为0.88 V,在10mA·cm^(-2)时的OER过电位为380 mV,以及高电化学稳定性(8 h后电流密度剩余92.8%)。此外,与基于Pt/C+IrO_(2)(155 mW·cm^(-2))和Fe_(0.64)Ni_(0.36)/NCNT(89 mW·cm^(-2))的锌-空气电池相比,基于Fe_(0.64)Ni_(0.36)@FeNiN/NCNT的锌-空气电池展现出更高的功率密度(214 mW·cm^(-2)),提供781mAh·g^(-1)的高容量,并展现出了超长的循环稳定性(循环寿命超过1100 h)。我们相信这项工作将对于新型催化剂设计有所启发,从而实现高度稳定和高效的锌-空气电池。

碱金属掺杂对高温固相法制备的CaMoO_(4):Sm^(3+)荧光粉发光性质的影响

在无机发光材料领域里,值得注意的是具有稳定化学及物理性质的优良材料钼酸钙。本次研究使用高温固相法制备一系列单一基质Ca MoO_(4)掺杂Sm^(3+)的白光荧光粉,并使用XRD测试其物相结构,用激发和发射光谱测试发光性能。最终研究发现钼酸钙(CaMoO_(4))中Sm^(3+)掺杂浓度为0.020时,荧光粉发光性能最强。当进一步掺杂碱金属作电荷补偿剂时,CaMoO_(4):0.020Sm^(3+)的发光强度最优异,其中掺杂K^(+)的荧光粉样品具有最大的发光强度,表明这种荧光粉在发光二极管照明方面具有深远而广阔的发展前景。

Zinc finger E-box-binding homeobox 1 mediates aerobic glycolysis via suppression of sirtuin 3 in pancreatic cancer

AIM To uncover the roles of tumor-promoting gene ZEB1 in aerobic glycolysis regulation and shed light on the underlying molecular mechanism.METHODS Endogenous zinc finger E-box binding homeobox-1(ZEB1) was silenced using a lentivirus-mediated method, and the impact of ZEB1 and methyl-CpG binding domain protein 1(MBD1) on aerobic glycolysis was measured using seahorse cellular flux analyzers, reactive oxygen species quantification, and mitochondrial membrane potential measurement. The interaction between ZEB1 and MBD1 was assessed by co-immunoprecipitation and immunofluorescence assays. The impact of ZEB1 and MBD1 interaction on sirtuin 3(SIRT3) expression was confirmed by quantitative polymerase chain reaction, western blotting, and dual-luciferase and chromatinimmunoprecipitation assays.RESULTS ZEB1 was a positive regulator of aerobic glycolysis in pancreatic cancer. ZEB1 transcriptionally silenced expression of SIRT3, a mitochondrial-localized tumor suppressor, through interaction with MBD1. CONCLUSION ZEB1 silenced SIRT3 expression via interaction with MBD1 to promote aerobic glycolysis in pancreatic cancer.

Anti-diabetic potential of apigenin,luteolin,and baicalein via partially activating PI3K/Akt/GLUT-4 signaling pathways in insulin-resistant HepG2 cells

Dietary flavonoids are abundant in natural plants and possess multiple pharmacological and nutritional activities.In this study,apigenin,luteolin,and baicalein were chosen to evaluate their anti-diabetic effect in high-glucose and dexamethasone induced insulin-resistant(IR)HepG2 cells.All flavonoids improves the glucose consumption and glycogen synthesis abilities in IR-HepG2 cells via activating glucose transporter protein 4(GLUT4)and phosphor-glycogen synthase kinase(GSK-3β).These fl avonoids signifi cantly inhibited the production of reactive oxygen species(ROS)and advanced glycation end-products(AGEs),which were closely related to the suppression of the phosphorylation form of NF-κB and P65.The expression levels of insulin receptor substrate-1(IRS-1),insulin receptor substrate-2(IRS-2)and phosphatidylinositol 3-kinase(PI3K)/protein kinase B(Akt)pathway in IR-HepG2 cells were all partially activated by the fl avonoids,with variable effects.Furthermore,the intracellular metabolic conditions of the fl avonoids were also evaluated.