Accelerating the Screening of Modified MA_(2)Z_(4)Catalysts for Hydrogen Evolution Reaction by Deep Learning-Based Local Geometric Analysis

Machine learning(ML)integrated with density functional theory(DFT)calculations have recently been used to accelerate the design and discovery of single-atom catalysts(SACs)by establishing deep structure–activity relationships.The traditional ML models are always difficult to identify the structural differences among the single-atom systems with different modification methods,leading to the limitation of the potential application range.Aiming to the structural properties of several typical two-dimensional MA_(2)Z_(4)-based single-atom systems(bare MA_(2)Z_(4)and metal single-atom doped/supported MA_(2)Z_(4)),an improved crystal graph convolutional neural network(CGCNN)classification model was employed,instead of the traditional machine learning regression model,to address the challenge of incompatibility in the studied systems.The CGCNN model was optimized using crystal graph representation in which the geometric configuration was divided into active layer,surface layer,and bulk layer(ASB-GCNN).Through ML and DFT calculations,five potential single-atom hydrogen evolution reaction(HER)catalysts were screened from chemical space of 600 MA_(2)Z_(4)-based materials,especially V_(1)/HfSn_(2)N_(4)(S)with high stability and activity(Δ_(GH*)is 0.06 eV).Further projected density of states(pDOS)analysis in combination with the wave function analysis of the SAC-H bond revealed that the SAC-dz^(2)orbital coincided with the H-s orbital around the energy level of−2.50 eV,and orbital analysis confirmed the formation ofσbonds.This study provides an efficient multistep screening design framework of metal single-atom catalyst for HER systems with similar two-dimensional supports but different geometric configurations.

Effect of ZrC Modified Graphite on Structure and Properties of Low-carbon Al_(2)O_(3)-C Refractories

To address the issues of reduced performance and shortened lifespan during the low-carbonizating process of Al_(2)O_(3)-C refractories,nano-crystalline ZrC modified graphite was prepared using Zr powder and flake graphite as raw materials,with NaCl and NaF mixed salt serving as the medium.The flake graphite was gradually replaced by ZrC modified graphite in the preparation of Al_(2)O_(3)-C refractories,and its impact on the material’s structure and properties was investigated.The results indicate that,compared to samples with only flake graphite,the introduction of 1 mass%to 5 mass%nano-crystalline ZrC modified graphite can significantly enhance the mechanical performance of low-carbon Al_(2)O_(3)-C refractories.When 5 mass%ZrC modified graphite is added,the mechanical properties of the samples are optimal,with the cold modulus of rupture and elastic modulus reaching 22.5 MPa and 65.0 GPa,respectively.

Exploring the impact of Nafion modifier on electrocatalytic CO_(2) reduction over Cu catalyst

Nafion as a universal polymer ionomer was widely applied for nanocatalysts electrode preparation.However,the effect of Nafion on electrocatalytic performance was often overlooked,especially for CO_(2)electrolysis.Herein,the key roles of Nafion for CO_(2)RR were systematically studied on Cu nanoparticles(NPs)electrocatalyst.We found that Nafion modifier not only inhibit hydrogen evolution reaction(HER)by decreasing the accessibility of H_(2)O from electrolyte to Cu NPs,and increase the CO_(2)concentration at electrocatalyst interface for enhancing the CO_(2)mass transfer process,but also activate CO_(2)molecule by Lewis acid-base interaction between Nafion and CO_(2)to accelerate the formation of^(*)CO,which favor of C–C coupling for boosting C_(2)product generation.Owing to these features,the HER selectivity was suppressed from 40.6%to 16.8%on optimal Cu@Nafion electrode at-1.2 V versus reversible hydrogen electrode(RHE),and as high as 73.5%faradaic efficiencies(FEs)of C_(2)products were achieved at the same applied potential,which was 2.6 times higher than that on bare Cu electrode(~28.3%).In addition,Nafion also contributed to the long-term stability by hinder Cu NPs morphology reconstruction.Thus,this work provides insights into the impact of Nafion on electrocatalytic CO_(2)RR performance.

Exact Traveling Wave Solutions to Phi-4 Equation and Joseph-Egri (TRLW) Equation and Calogro-Degasperis (CD) Equation by Modified (G'/G2)-Expansion Method

In this study, we will introduce the modified (G'/G2)-expansion method to explore some of the exact traveling wave solutions of some nonlinear partial differential equations namely, Phi-4 equation, Joseph-Egri (TRLW) equation, and Calogro-Degasperis (CD) equation. As a result, we have obtained solutions for the equations expressed in terms of trigonometric, hyperbolic and rational functions. Moreover, some selected solutions are plotted using some specific values for the parameters.

Sensitive Voltammetric Determination of Captopril Using a Carbon Paste Electrode Modified with Nano-TiO_2/Ferrocene Carboxylic Acid

A carbon paste electrode (CPE) modified with ferrocene carboxylic acid (FcCA) and TiO2 nanoparticles was constructed by incorporating TiO2 nanoparticles and ferrocene carboxylic acid into the carbon paste matrix. The electrochemical behavior of captopril (CAP) at the surface of the modified electrode was investigated using electroanalytical methods. The modified electrode showed excellent electrocatalytic activity for the oxidation of CAP in aqueous solutions at physiological pH values. Cyclic voltammetric curves showed that the oxidation of CAP at the surface of the modified electrode reduced its overpotential by more than 290 mV. The modified electrode was used for detecting captopril using cyclic voltammetry and square wave voltammetry techniques. A calibration curve in the range of 0.03 to 2400 μmol/L was obtained that had a detection limit of 0.0096 μmol/L (3?) under the optimized conditions. The modified electrode was successfully used for the determination of captopril in pharmaceutical and biological samples.

TBOEP和nano-TiO_(2)联合暴露诱导对土著鲫鱼的复合繁殖毒性效应

本研究以土著鲫鱼为受试生物,选择应用最为广泛的纳米二氧化钛(nano-TiO_(2))以及有机磷阻燃剂的典型代表磷酸三-(2-丁氧基)乙酯(TBOEP)作为暴露污染物,系统地研究nano-TiO_(2)与TBOEPP复合暴露对鲫鱼生殖系统的影响。实验设置空白对照组、0.05μg/L与0.5μg/L TBOEP暴露组0.5 mg/L nano-TiO_(2)暴露组以及TBOEP 0.05μg/L+nano-TiO_(2)0.5 mg/L、TBOEP 0.5μg/L+nano-TiO_(2)0.5 mg/L复合暴露组,暴露时间为7 d。研究结果表明:TBOEP能够在鲫鱼的组织中积累且nano-TiO_(2)能够加强TBOEP的生物累积。另外,TBOEP干扰鲫鱼血清中睾酮与雌二醇的水平,并造成鲫鱼下丘脑-垂体-性腺轴(HPG)基因异常表达,nano-TiO_(2)能够显著增强TBOEP对于鲫鱼性激素的干扰作用,加剧TBOEP对鲫鱼的繁殖毒性。

纳米Al_(2)O_(3)改性沥青的制备及其性能研究

为了研究纳米Al_(2)O_(3)改性剂对A-70#基质沥青物理性能、流变特性的影响及其微观改性机理。基于室内试验制备了不同掺量(1%、2%、3%、4%、5%)的纳米Al_(2)O_(3)改性沥青,对其进行三大指标、黏度、流变、抗老化性能及其傅里叶红外光谱试验测试。结果表明:加入纳米Al_(2)O_(3)之后,基质沥青的软化点和黏度提高,针入度及延度下降,纳米Al_(2)O_(3)最佳掺量为4%。由流变试验结果可知,纳米Al_(2)O_(3)可以提升基质沥青的车辙因子,显著增强其高温稳定性,抗老化性能得以提升,但对低温抗裂性能不利。根据微观分析结果,纳米Al_(2)O_(3)与基质沥青之间既产生了物理变化,又有微弱的化学反应存在。

葛根芩连汤加减联合二甲双胍对2型糖尿病胃肠湿热证患者中医证候积分及胰岛功能的影响

目的探讨葛根芩连汤加减联合二甲双胍对2型糖尿病(type 2 diabetes mellitus,T2DM)胃肠湿热证患者的影响。方法选取2022年4月—2023年12月深圳市中医院收治的78例T2DM胃肠湿热证患者为研究对象,根据不同治疗方法分为对照组和观察组,各39例。对照组口服盐酸二甲双胍片,观察组在对照组基础上给予葛根芩连汤加减治疗。对比两组的中医证候积分、血糖水平(空腹血糖、餐后2 h血糖、糖化血红蛋白)、胰岛功能(胰岛素抵抗指数、胰岛β细胞功能指数)、不良反应。结果治疗后,观察组的中医证候积分低于对照组,差异有统计学意义(P<0.05)。观察组空腹血糖、餐后2 h血糖、糖化血红蛋白水平均低于对照组,差异有统计学意义(P均<0.05)。治疗后,两组胰岛素抵抗指数水平均降低,且观察组低于对照组,两组胰岛β细胞功能指数均提高,且观察组高于对照组,差异有统计学意义(P均<0.05)。结论在T2DM胃肠湿热证患者中使用葛根芩连汤加减与二甲双胍联合治疗,可有效改善中医证候、血糖水平及胰岛功能,安全性高。

改性TiO_(2)在光电协同下处理偶氮染料废水的研究进展

偶氮染料(AZO)是一类难被生物降解的水溶性高分子有机物,近些年来,由于良好的染色性能被广泛应用于印染等相关行业,但AZO废水一旦排入自然水体将会造成重大的环境污染问题。本文主要介绍了不同类型的改性TiO_(2)对AOZ废水的处理效果并分析了作用原理,对比分析了单一TiO_(2)与改性TiO_(2)的优缺点,积极探索改性TiO_(2)催化剂的催化机理,解析金属和非金属掺杂在其中的具体作用,为今后更加精准地控制掺杂金属或者非金属比例、提高催化剂效率提供科学依据和技术支持。

Calculation of circulation in the South China Sea during summer of 2000 by the modified inverse method

On the basis of hydrographic data obtained in August 2000 cruise, the circulation in the South China Sea (SCS) is computed by the modified inverse method in combination with SSH data from TOPEX/ERS-2 analysis. For study of the dynamical mechanism, which causes the pattern of summer circulation in the SCS, the diagnostic model (Yuan et al. 1982. Acta Oceanologica Sinica,4(1):1-11; Yuan and Su. 1992. Numerical Computation of Physical Oceanography.474-542) is used to simulate numerically the summer circulation in the SCS. The following results have been obtained. (1) The central and southwestern SCSs are dominated mainly by anticy-clonic circulation systems. They are mainly as follows. 1) There is strong anticyclonic eddy southeast of Vietnam (W1). Its horizontal scale is about 300 km, and it extends vertically from the surface to the about 1 000 m level. 2) There are a warm eddy W2 southeast of Zhongsha Islands and the anticyclonic circulation system W3 west off the Luzon Island. 3) There is a stronger cyclonic eddy C1 between the anticyclonic eddies W1 and W2.4) A strong northward coastal jet is present near the coast of Vietnam, and separates from the coast of Vietnam at about 12° N to the northeast.(2)The northern SCS is dominated mainly by a cyclonic circulation system. There is a cyclonic circulation system near and north of Section N2. (3) The southeastern SCS is dominated mainly by the cyclonic circulation system. (4) Comparing the results of circulation in the SCS during the summer of 2000 with those during the summer of 1998, it is found that they agree qualitatively, but there is the some difference between them in quantity.This shows that the circulation in the SCS has obviously seasonal feature. (5) The dynamical mechanism which products the basic pattern of summer circulation is because the following two reasons: 1) the joint effect of the baroclinity and relief (JEBAR) is essential dynamical cause; and 2) it is next important dynamical cause that the interaction between the wind stress and bottom topography under the southerly monsoon. (6) Comparing the hydrographic structure and distribution of stream functions with the SSH data from TOPEX/ERS-2 analysis in the SCS during August of 2000, they agree qualitatively.

Modified (2+1)-dimensional displacement shallow water wave system and its approximate similarity solutions

Recently, a new （2＋1）-dimensional shallow water wave system, the （2＋1）-dlmenslonal displacement shallow water wave system （2DDSWWS）, was constructed by applying the variational principle of the analytic mechanics in the Lagrange coordinates. The disadvantage is that fluid viscidity is not considered in the 2DDSWWS, which is the same as the famous Kadomtsev-Petviashvili equation and Korteweg-de Vries equation. Applying dimensional analysis, we modify the 2DDSWWS and add the term related to the fluid viscidity to the 2DDSWWS. The approximate similarity solutions of the modified 2DDSWWS （M2DDSWWS） is studied and four similarity solutions are obtained. For the perfect fluids, the coefficient of kinematic viscosity is zero, then the M2DDSWWS will degenerate to the 2DDSWWS.

STUDY ON THE SURFACE MODIFICATION OF NANO-TiO_2 BY GRAFTING PMMA/PBMA AND ITS THERMAL STABILITY

The surface of nano-TiO_2 was encapsulated with hydroxyl-propyl-methyl cellulose(HPMC),and then cograftedwith acrylates.Conditions of absorbing and grafting have been studied.Modified nano-TiO_2 particles were characterized byFT-IR spectra,TEM and TG analysis.It was convinced from FT-IR studies that both methyl methacrylate(MMA)and butyl-methacrylate(BMA)were co-grafted onto the surface of nano-TiO_2 particles.TEM images show that the surface of nano-TiO_2 particles was successfully modified by a thick layer of film-like polymer.TG results demonstrate that the decompositiontemperature of HPMC-g-PMMA/PBMA,which has been grafted onto the surface of nano-TiO_2,is 56.9 K higher than that ofHPMC-g-PMMA/PBMA.

Nonlocal symmetry and exact solutions of the(2+1)-dimensional modified Bogoyavlenskii–Schiff equation

In this paper,the truncated Painlev′e analysis,nonlocal symmetry,Bcklund transformation of the（2＋1）-dimensional modified Bogoyavlenskii–Schiff equation are presented.Then the nonlocal symmetry is localized to the corresponding nonlocal group by the prolonged system.In addition,the（2＋1）-dimensional modified Bogoyavlenskii–Schiff is proved consistent Riccati expansion（CRE） solvable.As a result,the soliton–cnoidal wave interaction solutions of the equation are explicitly given,which are difficult to find by other traditional methods.Moreover figures are given out to show the properties of the explicit analytic interaction solutions.

Preparation of the Ag_2O_2-PbO_2 Modified Electrode and Its Application towards Escherichia coli Fast Counting in Water

A novel nano crystalline Ag2O2-PbO2 film chemically modified electrode (CME) was prepared and the CME was characterized by X-ray diffractometer (XRD) and atomic force microscope (AFM). By chronoamperometry, the nano Ag2O2-PbO2 CME was used as bioelectro- chemical sensor to determine the population of Escherichia coli (E. coli) in water. Compared with conventional methods, it is found that the technique we used is fast and convenient in counting E. coli.

Catalytic Oxidation of Dimethyl Ether to Dimethoxymethane over Cs Modified H_3PW_(12)O_(40)/SiO_2 Catalysts

The attractive utilization route for one-step catalytic oxidation of dimethyl ether to dimethoxymethane was successfully carried out over the H3PW12O40（40%）/SiO2 catalyst, modified by Cs, K, Ni, and V. The Cs modification of H3PW12O40（40%）/SiO2 gave the most promising result of 20% dimethyl ether conversion and 34.8% dimethoxymethane selectivity. Dimethoxymethane could be synthe- sized via methoxy groups decomposed from dimethyl ether through the synergistic effect between the acid sites and the redox sites of Cs modified H3PW12O40（40%）/SiO2.

Electrochemical determination of vitamin C in the presence of uric acid by a novel TiO_2 nanoparticles modified carbon paste electrode

The electrochemical behavior of vitamin C（ascorbic acid or AA） is investigated on the surface of a carbon-paste electrode modified with TiO2 nanoparticles and 2,2＇-（1,2 butanediylbis（nitriloethylidyne））-bis-hydroquinone（BBNBH）.The prepared modified electrode showed an efficient catalytic role in the electrochemical oxidation of AA,leading to remarkable decrease in oxidation overpotential and enhancement of the kinetics of the electrode reaction.This modified electrode exhibits well-separated oxidation peaks for AA and uric acid（UA）.The modified electrode is successfully applied for the accurate determination of AA in pharmaceutical preparations.

Synthesis of modified D401 chelating resin and its adsorption properties for Pb^(2+)

A novel chelating resin with sulfonic group was synthesized by chemical modification of D401 resin with sulphonation reaction and characterized by FT-IR spectrometry. The adsorption properties of the novel chelating resin for Pb2+ were studied by batch adsorption, and the adsorption process was analyzed from thermodynamics and kinetics aspects. The adsorption mechanism of Pb2+ on the modified D401 chelating resin was discussed by FT-IR spectrometry. Experimental results show that in the Pb2+ concentration range of 200-400 mg/L, the adsorption capacities of the modified D401 chelating resin for Pb2+ increase by 77%-129%, and Langmuir isothermal adsorption model is more suitable for the equilibrium adsorption data. Adsorption is an endothermic process that runs spontaneously. Kinetic analysis shows that the adsorption rate is mainly governed by liquid film diffusion. The best pH value under adsorption condition is 4-5. The saturated resin can be regenerated by 3 mol/L nitric acid, and the adsorption capacity remains stable after five consecutive adsorption-desorption cycles. The maximal static saturated adsorption capacity of the resin is 206 mg/g at 333 K in the Pb2+ concentration range of 200-400 mg/L. The modified D401 chelating resin is an efficient adsorbent for the removal of Pb2+ from its single-metal ion solution.

Preparation of Calcium Cross-linked Nano-Fe3O4 Modified Zeolite Microspheres for Cu^2+ Adsorption from Wastewater

Artificial zeolite was modified by nano-Fe3O4 for development of functional adsorbents.Subsequently,adsorbents such as calcium cross-linked nano-Fe3O4 microspheres (Ca-MS),calcium cross-linked nano-Fe3O4 modified zeolite microspheres (Ca-MZS) and iron cross-linked nano-Fe3O4 modified zeolite microspheres (Fe-MZS) were prepared and compared for their adsorption performance.The effects of adsorbent dosage,solution pH,initial concentration and ion content on the removal of Cu^2+ from wastewater are investigated,and the adsorption kinetics and isotherms for the adsorbent materials were analyzed.The experimental results indicate that for the initial concentration of Cu^2+ of 30 mg/L,the adsorption is noted to be most stable.The optimal initial pH for adsorbing Cu^2+ is observed to be 5.5.At an optimal dosage of Ca-MZS of 900 mg/L,the adsorption capacity is measured to be 28.25 mg/g,along with the removal rate of 72.49%.The addition of Na+ and K+ affects the adsorption of Cu^2+.For the Na^+ and K^+ concentration of 0.2 mmol/L,the Cu^2+ removal rate by Ca-MZS drops to 11.94% and 22.12%,respectively.As compared with the adsorbents such as Natural Zeolite (NZ),Ca-MS and Fe-MZS,Ca-MZS demonstrates the best removal effect in solution,where the removal rate reaches 84.27%,with the maximum adsorption capacity of 28.09 mg/g.The Cu^2+ adsorption kinetics of Ca-MZS is observed to follow the Elovich kinetic model,with the adsorption isotherm data fitting the Freundlich isotherm model by using the non-linear method.

不同碳源的生物质炭-磷化铁/零价铁的制备及对水中3,4,5,6-四氯吡啶-2-羧酸的去除

改性生物炭材料在环境污染物去除中的应用越来越广泛.本文以鸡粪(CM)、咖啡渣(CG)、活性污泥(SL)等3种废弃生物质为碳源,制备了3种生物质炭-磷化铁/零价铁复合材料(BC-Fe_(x)P/Fe).这些材料主要由生物质炭、磷酸铁、磷化铁、零价铁或碳化铁及氧化铁组成.用于降解水中的3,4,5,6-四氯吡啶-2-羧酸(TCPA)时,以活性污泥为碳源的SL-Fe_(x)P/Fe材料对TCPA的去除效果明显优于以鸡粪为碳源的CM-Fe_(x)P/Fe和以咖啡为碳源的CG-Fe_(x)P/Fe材料,而且SL-Fe_(x)P/Fe对TCPA的降解受pH影响较小.在中性pH反应6 h后,CM-Fe_(x)P/Fe、CG-Fe_(x)P/Fe和SL-Fe_(x)P/Fe对10 mg·L^(-1)的TCPA的降解率分别为90.1%、71.1%和100%,矿化率分别为33.25%、22.61%和64.27%.掩蔽实验和电子自旋共振(ESR)结果表明,SL-Fe_(x)P/Fe体系存在多种活性氧物质.使用前后材料的X射线晶体衍射和X射线光电子能谱分析,材料中的Fe_(x)P、Fe3C、Fe和氮掺杂生物质炭均在有机污染物的降解过程中发挥了作用.

气调袋包装结合ClO_(2)对鲜切西兰花冷藏保鲜效果影响

目的研究气调袋包装结合ClO_(2)来延缓冷藏条件下鲜切西兰花的黄化和腐烂,以期维持鲜切西兰花营养品质的影响。方法以鲜切西兰花为实验材料,设CK、气调袋包装、0.5g-ClO_(2)和气调袋包装+0.5g-ClO_(2)4个处理。结果在4℃贮藏下,根据品质指标、抗氧化指标及微生物指标可知,相较于单独使用气调袋包装和0.5g-ClO_(2)处理,二者结合处理能更明显地降低鲜切西兰花的质量损失率、腐烂率、相对电导率、丙二醛、O_(2)^(-)·、H^(2)O_(2)含量及菌落总数,维持更高水平的可溶性固形物、叶绿素含量及抗氧化酶活性,具有维持细胞膜完整性,延缓失绿黄化现象及提高抗氧化能力的作用,能最有效地维持鲜切西兰花贮藏品质。结论在4℃下,利用气调袋包装+0.5g-ClO_(2)处理能显著地抑制鲜切西兰花营养成分的损失,提高其抗氧化性,延长贮藏保鲜期,可将保鲜期延长至20d,维持较好的应用价值,且具有较好的经济性与可行性。