可控构建Co_(3)S_(4)@CoMoS核@壳材料用于氢溢流促进的高效加氢脱硫

过去几十年,通过催化加氢脱硫(HDS)实现超清洁油品的生产一直是石油炼制领域的研究重点.然而,常规的HDS催化剂因金属负载量较低及金属与载体之间的强相互作用,导致其对4,6-二甲基二苯并噻吩(4,6-DMDBT)类大分子的脱除效率较低.这类大分子反应物由于具有较大的空间位阻,使得其在催化剂表面活性位点上的吸附和反应更为困难,往往通过氢化反应进行脱硫反应.因此,为实现有效的脱硫反应,必须发展能高效解离和活化氢物种的催化剂.此外,通过氢化反应高效地脱除4,6-DMDBT通常需要在高温高压等苛刻条件下进行,这要求催化剂具备更高的活性、选择性和稳定性.为解决上述问题,本文通过奥斯瓦尔德熟化法制备了一种由多孔CoMoS外壳和Co_(3)S_(4)内核构成的Co_(3)S_(4)@CoMoS核@壳材料,并用于4,6-DMDBT类大分子的脱除.同时,通过原位表征和理论计算研究了该催化材料在HDS反应中的构效关系.SEM结果显示,制得的Co_(3)S_(4)@CoMoS空心球外表面粗糙,由许多小纳米颗粒组成.TEM图像直观地显示了Co_(3)S_(4)@CoMoS催化剂的结构,其外壳和间隙厚度分别为80和100 nm,高度多孔的球体使核@壳材料能够提供较短的氢溢流距离,从而构建了一种高效的HDS纳米反应器.EDX结果显示Co,Mo和S元素在Co_(3)S_(4)@CoMoS催化剂上均匀分布.其中,Mo金属仅存在于纳米球的外壳上;除外层的CoMoS相外,Co元素还形成了一个由Co-S物种组成的独立核心.结合XRD结果可以确定,该催化剂是由Co促进的MoS_(2)外壳和Co_(3)S_(4)内核组成的Co_(3)S_(4)@CoMoS核@壳材料.电镜图像和氮气吸脱附等结果表明,Co_(3)S_(4)@CoMoS纳米球的外壳由(Co)MoS_(2)纳米片交错卷曲组装而成,壳层含有丰富的活性位点和发达的孔道结构,为反应物提供了充足的吸附位点.Co金属的掺杂增加了MoS_(2)晶体的无序度,使得MoS_(2)纳米片上形成了大量的不饱和硫空位.钴原子锚定在MoS_(2)边缘还可以抑制MoS_(2)纳米片的团聚,使得Co_(3)S_(4)@CoMoS催化剂上的层状MoS_(2)长度较短且堆叠层数较低,有利于活性位点的充分暴露.H_(2)-程序升温脱附和WO_(3)变色实验结果证实了Co_(3)S_(4)@CoMoS结构中的氢溢流效应.HDS实验结果表明,仅使用30 mg Co_(3)S_(4)@CoMoS催化剂就能够实现99.2%的二苯并噻吩转化率和94.9%的4,6-DMDBT转化率.推测在HDS反应中,含硫大分子锚定在CoMoS外壳的硫空位上,而内核Co_(3)S_(4)相能够引发氢溢流效应,并将活性氢物种传递给CoMoS相,用于吸附和脱除含硫反应物,从而在HDS反应中使CoMoS和Co_(3)S_(4)两相起到协同作用,进而实现针对4,6-DMDBT类大分子的深度加氢脱硫.同时,反应过程中小分子H_(2)则可以自由地通过壳体扩散到内核的Co_(3)S_(4)相上,被解离成溢流氢物种后又传递给外层壳体,使得硫空位在HDS中不断地形成和再生.此外,核@壳球体内部连续的介孔通道缩短了溢流氢物种的迁移距离,提高了活性物种的利用率.致密的壳体使催化剂在多次循环反应中保留了核@壳结构,提高了催化剂的使用寿命.理论计算结果表明,CoMoS相和Co_(3)S_(4)相间的强电荷转移增加了CoMoS相中硫原子的电子云密度,有利于反应物在活性物种上的吸附.此外,得益于Co_(3)S_(4)相的氢溢流效应,在CoMoS/Co_(3)S_(4)双相结构上的氢解离能远低于单相结构,这使得H2分子能够在核@壳催化剂上被快速活化,以促进反应物分子的下一步脱硫进程.综上所述,本文制备的多组分Co_(3)S_(4)@CoMoS核@壳催化剂表现出较好的加氢脱硫性能.文章还提出了活性相结构与催化活性及反应路径选择性之间的作用机制,为进一步开发高效非负载加氢脱硫催化剂提供了新思路.

Unveiling the cellular microstructure-property relations in martensitic stainless steel via laser powder bed fusion

Laser powder bed fusion(LPBF)is a widely recognized additive manufacturing technology that can fabricate complex components rapidly through layer-by-layer formation.However,there is a paucity of research on the effect of laser scanning speed on the cellular microstructure and mechanical properties of martensitic stainless steel.This study systematically investigated the influence of laser scanning speed on the cellular microstructure and mechanical properties of a developed Fe11Cr8Ni5Co3Mo martensitic stainless steel produced by LPBF.The results show that increasing the laser scanning speed from 400 to 1000 mm/s does not lead to a noticeable change in the phase fraction,but it reduces the average size of the cellular microstructure from 0.60 to 0.35μm.The scanning speeds of 400 and 1000 mm/s both had adverse effects on performances of sample,resulting in inadequate fusion and keyhole defects respectively.The optimal scanning speed for fabricating samples was determined to be 800 mm/s,which obtained the highest room temperature tensile strength and elongation,with the ultimate tensile strength measured at(1088.3±2.0)MPa and the elongation of(16.76±0.10)%.Furthermore,the mechanism of the evolution of surface morphology,defects,and energy input were clarified,and the relationship between cellular microstructure size and mechanical properties was also established.

Numerical Simulation of Surrounding Rock Deformation and Grouting Reinforcement of Cross-Fault Tunnel under Different Excavation Methods

Tunnel construction is susceptible to accidents such as loosening, deformation, collapse, and water inrush, especiallyunder complex geological conditions like dense fault areas. These accidents can cause instability and damageto the tunnel. As a result, it is essential to conduct research on tunnel construction and grouting reinforcementtechnology in fault fracture zones to address these issues and ensure the safety of tunnel excavation projects. Thisstudy utilized the Xianglushan cross-fault tunnel to conduct a comprehensive analysis on the construction, support,and reinforcement of a tunnel crossing a fault fracture zone using the three-dimensional finite element numericalmethod. The study yielded the following research conclusions: The excavation conditions of the cross-fault tunnelarray were analyzed to determine the optimal construction method for excavation while controlling deformationand stress in the surrounding rock. The middle partition method (CD method) was found to be the most suitable.Additionally, the effects of advanced reinforcement grouting on the cross-fault fracture zone tunnel were studied,and the optimal combination of grouting reinforcement range (140°) and grouting thickness (1m) was determined.The stress and deformation data obtained fromon-site monitoring of the surrounding rock was slightly lower thanthe numerical simulation results. However, the change trend of both sets of data was found to be consistent. Theseresearch findings provide technical analysis and data support for the construction and design of cross-fault tunnels.

The gut-liver axis mechanism of increased susceptibility to non-alcoholic fatty disease in female offspring rats with prenatal caffeine exposure

Caffeine intake during pregnancy is common,while its effect on gut microbiota composition of offspring and the relationship with susceptibility to adult diseases remains unclear.This study aimed to confirm the effects of prenatal caffeine exposure(PCE)on the gut microbiota composition and its metabolites in female offspring rats,and to further elucidate its underlying mechanism and intervention targets in adult non-alcoholic fatty disease(NAFLD).The results showed that the gut microbiota of PCE female offspring at multiple time points from infancy to adolescence were significantly changed with depletion of butyric acid-producing bacteria,leading to a decrease in butyric acid in adulthood.It was also found that PCE female offspring rats were sensitive to NAFLD induced by a postnatal high-fat diet(HFD),which is mainly related to the enhancement of hepatic triglyceride synthesis function.Through mechanism exploration,we found that HFD further reduced the fecal and serum butyric acid levels in the PCE female offspring,which was significantly negatively correlated with hepatic SREBP-1c/FASN mRNA expression and triglyceride level.In vivo and in vitro experiments confirmed that sodium butyrate(NaB)supplementation could reduce hepatic lipid accumulation through MCT1/GPR109A-AMPK,thereby effectively decreasing the susceptibility to NAFLD in the PCE female offspring rats.

Role of Helicobacter pylori in esophageal carcinogenesis:Friend or foe?

In this letter,we comment on the article by López-Gómez et al,which explores the prevalence of Helicobacter pylori(H.pylori)infection among patients with esophageal carcinoma(EC)in a cohort of Spain population.The relationship between H.pylori infection and EC is very complex.Previous research results are often contradictory due to the influence of dietary habits,age,region,and other factors.López-Gómez et al reported a very low prevalence of previous H.pylori infection in their cohort of patients with EC,and most of them had previously received or concomitantly received proton pump inhibitors treatment.These results are similar to previous results,which suggest that H.pylori infection is related to the low incidence of EC.Therefore,this study may provide a direction for preventing EC and eradicating H.pylori in Spain.

The electrical design of a membrane antenna for a lunar-based low-frequency radio telescope

Detecting primordial fluctuations from the cosmic dark ages requires extremely large low-frequency radio telescope arrays deployed on the far side of the Moon.The antenna of such an array must be lightweight,easily storable and transportable,deployable on a large scale,durable,and capable of good electrical performance.A membrane antenna is an excellent candidate to meet these criteria.We study the design of a low-frequency membrane antenna for a lunar-based low-frequency(<30 MHz)radio telescope constructed from polyimide film widely used in aerospace applications,owing to its excellent dielectric properties and high stability as a substrate material.We first design and optimize an antenna in free space through dipole deformation and coupling principles,then simulate an antenna on the lunar surface with a simple lunar soil model,yielding an efficiency greater than 90%in the range of 12-19 MHz and greater than 10%in the range of 5-35 MHz.The antenna inherits the omni-directional radiation pattern of a simple dipole antenna in the 5-30 MHz frequency band,giving a large field of view and allowing detection of the 21 cm global signal when used alone.A demonstration prototype is constructed,and its measured electrical property is found to be consistent with simulated results using|S11|measurements.This membrane antenna can potentially fulfill the requirements of a lunar low-frequency array,establishing a solid technical foundation for future large-scale arrays for exploring the cosmic dark ages.

玻璃体切割联合内界膜剥除术治疗顽固性糖尿病黄斑水肿

目的:观察玻璃体切割术(PPV)联合内界膜(ILM)剥除术治疗顽固性糖尿病黄斑水肿的临床疗效。方法:回顾性分析顽固性糖尿病黄斑水肿并行PPV联合ILM剥除术患者56例56眼,根据有无后极部玻璃体后脱离分为A组(无玻璃体后脱离,35例35眼)和B组(有玻璃体后脱离,21例21眼)。对比分析手术前及手术后1、3、6mo时患眼最佳矫正视力(BCVA)、黄斑中心视网膜厚度(CMT)变化情况。结果:A组手术后1、3、6mo平均CMT和BCVA与手术前比较均有差异(P<0.05)。B组手术后1、3、6mo平均BCVA与手术前比较均无差异(P>0.05);手术后1mo平均CMT与手术前比较有差异(P<0.05),术后3、6mo平均CMT与手术前比较均无差异(P>0.05)。术后1、3、6mo,两组CMT、BCVA比较均有差异(P<0.05)。结论:PPV联合ILM剥除术能有效治疗无玻璃体后脱离的顽固性糖尿病黄斑水肿,提高患者视力;但当患者玻璃体已经后脱离且没有牵拉时,PPV联合ILM剥除术治疗效果不佳。

1例误诊为原发性精神病的额颞叶痴呆病例讨论

目的:报道1例早期误诊为原发性精神病的额颞叶痴呆患者诊疗过程并进行讨论分析。方法:对1例行为变异型额颞叶痴呆患者的临床和神经影像学表现进行分析。结果:本病例为中年女性,首发表现为精神异常,在外院先后诊断为抑郁症、精神分裂症,予药物治疗后效果不佳,行头颅MRI示双侧额颞叶萎缩,左侧明显。头颅18F-FDG PET示:双侧侧额叶、颞叶外侧代谢减低。FTD相关基因检测发现该患者存在易感基因突变。结论:这是1例典型的bvFTD病例,早期被误诊为原发性精神病,这提示在精神异常的诊断过程中,需与bvFTD鉴别诊断。

Ji Desheng Snake Pills Combined with Hypertonic Glucose External Application in the Treatment of Stage III and IV Pressure Injuries

Background: As a common surgical disease, pressure injury has become a long-standing problem in clinical treatment and nursing process. This research was conducted to explore the feasibility of Ji Desheng Snake Pills combined with hypertonic glucose external application in the treatment of stage III and IV pressure injuries. Methods: Patients with stage III and IV pressure injuries, who received treatment in our hospital between December 2018 and December 2019 were selected and divided into experimental group, conventional treatment group, and control group, 30 cases for each. The three groups received Ji Desheng Snake Pills combined with hypertonic glucose external application, moist dressing external application and surgical dressing change, respectively. The safety, therapeutic effect and cost benefit of the three treatment methods were compared. Results: There were no adverse reactions in the three groups of patients. The PUSH scores of the experimental group and the conventional treatment group were significantly lower than that of the control group on the 14th, 21th, and 28th days, and the result was statistically significant (p < 0.05), while there was no significant difference between the experimental group and the conventional treatment group (p > 0.05). The wound healing rates of the experimental group (70.14 ± 8.27%) and the conventional treatment group (73.99 ± 7.15%) were significantly higher than that of the control group (43.25 ± 8.53%) on the 28th day, with statistical significance (p < 0.05);there was no significant difference between the experimental group and the conventional treatment group (p > 0.05). The total treatment costs of the three groups were 569.73 ± 78.12 yuan, 1043.40 ± 135.31 yuan, and 186.47 ± 30.29 yuan. The cost of the conventional treatment group was the highest, followed by the experimental group, and the control group was the lowest. The result was statistically significant (p < 0.05). Conclusion: In the treatment of stage III and IV pressure injuries, there was no significant difference in the safety and therapeutic effect between the experimental group (Ji Desheng Snake Pills combined with hypertonic glucose external application) and the conventional treatment group (moist dressing external application), but the experimental group had better cost benefit.

Rosmarinic acid elicits neuroprotection in ischemic stroke via Nrf2 and heme oxygenase 1 signaling

Rosmarinic acid（RA） can elicit a neuroprotective effect against ischemic stroke, but the precise molecular mechanism remains poorly understood. In this study, an experimental ischemic stroke model was established in CD-1 mice（Beijing Vital River Laboratory Animal Technology, Beijing, China） by occluding the right middle cerebral artery for 1 hour and allowing reperfusion for 24 hours. After intraperitoneally injecting model mice with 10, 20, or 40 mg/kg RA, functional neurological deficits were evaluated using modified Longa scores. Subsequently, cerebral infarct volume was measured using TTC staining and ischemic brain tissue was examined for cell apoptosis with TUNEL staining. Superoxide dismutase activity and malondialdehyde levels were measured by spectrophometry. Expression of heme oxygenase-1（HO-1）, nuclear factor erythroid 2-related factor 2（Nrf2）, Bcl-2, Bax, Akt, and phospho-Ser473 Akt proteins in ischemic brain tissue was detected by western blot, while mRNA levels of Nrf2, HO-1, Bcl-2, and Bax were analyzed using real time quantitative PCR. In addition, HO-1 enzyme activity was measured spectrophotometrically. RA（20 and 40 mg/kg） greatly improved neurological function, reduced infarct volume, decreased cell apoptosis, upregulated Bcl-2 protein and mRNA expression, downregulated Bax protein and mRNA expression, increased HO-1 and Nrf2 protein and mRNA expression, increased superoxide dismutase activity, and decreased malondialdehyde levels in ischemic brain tissue of model mice. However, intraperitoneal injection of a HO-1 inhibitor（10 mg/kg zinc protoporphyrin IX） reversed the neuroprotective effects of RA on HO-1 enzyme activity and Bcl-2 and Bax protein expression. The PI3 K/Akt signaling pathway inhibitor LY294002（10 mM） inhibited Akt phosphorylation, as well as Nrf2 and HO-1 expression. Our findings suggest that RA has anti-oxidative and anti-apoptotic properties that protect against ischemic stroke by a mechanism involving upregulation of Nrf2 and HO-1 expression via the PI3 K/Akt signaling pathway.

Machine-learning-assisted prediction of the mechanical properties of Cu–Al alloy

The machine-learning approach was investigated to predict the mechanical properties of Cu–Al alloys manufactured using the powder metallurgy technique to increase the rate of fabrication and characterization of new materials and provide physical insights into their properties.Six algorithms were used to construct the prediction models, with chemical composition and porosity of the compacts chosen as the descriptors.The results show that the sequential minimal optimization algorithm for support vector regression with a puk kernel(SMOreg/puk) model demonstrated the best prediction ability. Specifically, its predictions exhibited the highest correlation coefficient and lowest error among the predictions of the six models. The SMOreg/puk model was subsequently applied to predict the tensile strength and hardness of Cu–Al alloys and provide guidance for composition design to achieve the expected values. With the guidance of the SMOreg/puk model, Cu–12Al–6Ni alloy with a tensile strength(390 MPa) and hardness(HB 139) that reached the expected values was developed.

Four new observational H(z) data from luminous red galaxies in the Sloan Digital Sky Survey data release seven

By adopting the differential age method, we select 17 832 luminous red galaxies from the Sloan Digital Sky Survey Data Release Seven covering redshift 0 〈 z 〈 0.4 to measure the Hubble parameter. Using the full spectrum fitting package UZySS, these spectra are reduced with single stellar population models and optimal age information from our selected sample is derived. With the decreasing age-redshift relation, four new observational H（z） data （OHD） points are obtained, which are H（z） = 69.0 ± 19.6 km s^-1 Mpc^-1 at z = 0.07, H（z） = 68.6± 26.2 km s^-1 Mpc^-1 at z = 0.12, H（z）=72.9 ± 29.6 km s^-1 Mpc^-1 at z = 0.2 and H（z）=88.8 ± 36.6 km s^-1 Mpc^-1 at z = 0.28, respectively. Combined with 21 other available OHD data points, the performance of the constraint on both flat and non-flat ACDM models is presented.

Electron-beam radiation effects on the structure and properties of polypropylene at low dose rates

While the high-energy radiation effects on polypropylene, which are crucial for the cable industry for nuclear power plants, have been thoroughly studied, the property changes of PP at low-dose-rate electron-beam irradiation are far from elucidated. Herein, the influence of electron-beam irradiation on the structure and properties of PP was examined. The static EB irradiation conditions were 1.2 MeV at a low dose rate of 20 kGy/h to achieve absorbed doses ranging from 45, to 60, 100, and 200 kGy.The molecular structure was first evaluated by measuring the carboxyl index and the relative radical concentrations via Fourier transform infrared spectroscopy and electron spin resonance, respectively. Mechanical, differential scanning colorimetric, and rheological tests were carried out to further investigate the changes in the properties(tensile, crystalizing, and viscoelastic properties) of irradiated PP, which showed good agreement with the structural analysis results. We found that radio-oxidative degradation(chain scission) was predominant, which can be due to the low dose rate facilitating oxygen diffusion into the PP matrix during electron-beam irradiation.

Simultaneous passivation of bulk and interface defects through synergistic effect of anion and cation toward efficient and stable planar perovskite solar cells

Bulk and interface carrier nonradiative recombination losses impede the further improvement of power conversion efficiency(PCE)and stability of perovskite solar cells(PSCs).It is highly necessary to develop multifunctional strategy to minimize surface and interface nonradiative recombination losses.Herein,we report a bulk and interface defect passivation strategy via the synergistic effect of anions and cations,where multifunctional potassium sulphate(K_(2)SO_(4))is incorporated at SnO_(2)/perovskite interface.We find that K^(+)ions in K_(2)SO_(4)diffuse into perovskite layer and suppress the formation of bulk defects in perovskite films,and the SO_(4)^(2-)ions remain located at interface via the strong chemical interaction with SnO_(2)layer and perovskite layer,respectively.Through this synergistic modification strategy,effective defect passivation and improved energy band alignment are achieved simultaneously.These beneficial effects are translated into an efficiency increase from 19.45%to 21.18%with a low voltage deficit of0.53 V mainly as a result of boosted open-circuit voltage(V_(oc))after K_(2)SO_(4)modification.In addition,the K_(2)SO_(4)modification contributes to ameliorated stability.The present work provides a route to minimize bulk and interface nonradiative recombination losses for the simultaneous realization of PCE and stability enhancement by rational anion and cation synergistic engineering.

利用离子膜电解法改进过硫酸铵生产研究

国内工厂生产过硫酸铵大多采用工艺简单且产品纯度高的电解法,但是电解法在生产过程中存在能耗过高的问题。这一问题限制了过硫酸铵在许多领域的进一步发展。针对这一现象,对硫酸铵电解生成过硫酸铵的设备及工艺进行设计和研究,以期达到降低能耗的目的。实验基于零极距和离子交换膜电解槽的设计,研究了加酸量、抑制剂用量、出入口温度和电解液浓度等因素对电解效率的影响。结果表明,在电解液中加酸并且在阳极液中添加抑制剂对提高电流效率和降低槽电压具有很大的影响,在最优条件下电流效率可达到98%,生产过程能耗显著降低。另外,电解槽还具有连续性生产、占地面积小的优势,进一步解决了厂家所面临的生产成本过高的问题。

SPP-extractor:Automatic phenotype extraction for densely grown soybean plants

Automatic collecting of phenotypic information from plants has become a trend in breeding and smart agriculture.Targeting mature soybean plants at the harvesting stage,which are dense and overlapping,we have proposed the SPP-extractor(soybean plant phenotype extractor)algorithm to acquire phenotypic traits.First,to address the mutual occultation of pods,we augmented the standard YOLOv5s model for target detection with an additional attention mechanism.The resulting model could accurately identify pods and stems and could count the entire pod set of a plant in a single scan.Second,considering that mature branches are usually bent and covered with pods,we designed a branch recognition and measurement module combining image processing,target detection,semantic segmentation,and heuristic search.Experimental results on real plants showed that SPP-extractor achieved respective R^(2) scores of 0.93–0.99 for four phenotypic traits,based on regression on manual measurements.

Experimental investigation on the invert stability of operating railway tunnels with different drainage systems using 3D printing technology

In recent years, the invert anomalies of operating railway tunnels in water-rich areas occur frequently,which greatly affect the transportation capacity of the railway lines. Tunnel drainage system is a crucial factor to ensure the invert stability by regulating the external water pressure(EWP). By means of a threedimensional(3D) printing model, this paper experimentally investigates the deformation behavior of the invert for the tunnels with the traditional drainage system(TDS) widely used in China and its optimized drainage system(ODS) with bottom drainage function. Six test groups with a total of 110 test conditions were designed to consider the design factors and environmental factors in engineering practice,including layout of the drainage system, blockage of the drainage system and groundwater level fluctuation. It was found that there are significant differences in the water discharge, EWP and invert stability for the tunnels with the two drainage systems. Even with a dense arrangement of the external blind tubes, TDS was still difficult to eliminate the excessive EWP below the invert, which is the main cause for the invert instability. Blockage of drainage system further increased the invert uplift and aggravated the track irregularity, especially when the blockage degree is more than 50%. However, ODS can prevent these invert anomalies by reasonably controlling the EWP at tunnel bottom. Even when the groundwater level reached 60 m and the blind tubes were fully blocked, the invert stability can still be maintained and the railway track experienced a settlement of only 1.8 mm. Meanwhile, the on-site monitoring under several rainstorms further showed that the average EWP of the invert was controlled within 84 k Pa, while the maximum settlement of the track slab was only 0.92 mm, which also was in good agreement with the results of model test.

类器官模型在肿瘤精准诊疗中的应用

过去10年中,三维类器官技术得到了快速发展,目前已经可以从正常组织和恶性肿瘤组织中高效地建立类器官。患者来源的肿瘤类器官(patient-derived tumor-organoids,PDOs)可以很好地保留亲本肿瘤的生理病理学及遗传学特征,最大限度地保持肿瘤异质性。PDOs已被用于阐明关键的科学问题,包括感染病原体或遗传/表观遗传学改变与肿瘤发生之间的关系、耐药机制、预测患者对选定治疗方案的反应。随着类器官与肿瘤微环境的细胞成分共培养系统的建立,该技术现在也被应用于快速发展的免疫肿瘤学领域。本文综述了类器官技术在肿瘤精准医学领域的研究现状、应用及面临的挑战。

Zeolitic imidazolate framework-8 modified poly(vinylidene fluoride-cohexafluoropropylene)/polyacrylonitrile composite separators for Li-ion batteries

As one of the most stable metal-organtic framework(MOF),zeolitic imidazolate framework-8(ZIF-8)has been widely studied for applications in the field of energy storage,catalysis,and environment protection.In this paper,ZIF-8 was employed to enhance the electrochemical properties and thermal stability of the electrospun poly(vinylidene fluoride-co-hexafluoropropylene)/polyacrylonitrile(PVDF-HFP/PAN)composite separator.The results indicate that the test cells assembled with the composite separators show improved rate capability,high discharge capacity,and stable cycling performances.The addition of ZIF-8 can improve the affinity of PVDF-HFP/PAN toward liquid electrolytes,and further enhance the ionic conductivity of the composite separators.In addition,the thermal stability of the PVDF-HFP/PAN separator has been improved by ZIF-8 nanoparticles.This work can provide insight into the application of MOF materials in Li-ion batteries.

Stabilizing Buried Interface via Synergistic Effect of Fluorine and Sulfonyl Functional Groups Toward Efficient and Stable Perovskite Solar Cells

The interfacial defects and energy barrier are main reasons for interfacial nonradiative recombination.In addition,poor perovskite crystallization and incomplete conversion of PbI_(2) to perovskite restrict further enhancement of the photovoltaic performance of the devices using sequential deposition.Herein,a buried interface stabilization strategy that relies on the synergy of fluorine(F)and sulfonyl(S=O)functional groups is proposed.A series of potassium salts containing halide and non-halogen anions are employed to modify SnO_(2)/perovskite buried interface.Multiple chemical bonds including hydrogen bond,coordination bond and ionic bond are realized,which strengthens interfacial contact and defect passivation effect.The chemical interaction between modification molecules and perovskite along with SnO_(2) heightens incessantly as the number of S=O and F augments.The chemical interaction strength between modifiers and perovskite as well as SnO_(2) gradually increases with the increase in the number of S=O and F.The defect passivation effect is positively correlated with the chemical interaction strength.The crystallization kinetics is regulated through the compromise between chemical interaction strength and wettability of substrates.Compared with Cl−,all non-halogen anions perform better in crystallization optimization,energy band regulation and defect passivation.The device with potassium bis(fluorosulfonyl)imide achieves a tempting efficiency of 24.17%.