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Self-activated micropores tailor carbon layer stacking and graphitic microstructures for high-performance sodium storage
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作者 Xuefeng Yu Dongjie Yang +5 位作者 Xueqing Qiu Xuan Xiong Conghua Yi Hongming Lou Weifeng Liu Wenli Zhang 《Journal of Energy Chemistry》 2025年第8期660-670,共11页
Lignin-derived hard carbon shows potential as an anode material for sodium-ion batteries(SIBs)due to its high carbon content and aromatic structure,but its limited reversible adsorption sites and low conductivity hind... Lignin-derived hard carbon shows potential as an anode material for sodium-ion batteries(SIBs)due to its high carbon content and aromatic structure,but its limited reversible adsorption sites and low conductivity hinder performance.This study introduces a self-activation strategy to optimize carbon layer stacking and surface functional groups in microporous carbon,significantly enhancing sodium storage capacity and rate performance.By utilizing oxygen-containing functional groups in organic solvent lignin,we induce micropore formation during pyrolysis,effectively regulating graphite domains and closed pores structures without disrupting carbon layer growth.Unstacked graphene layers serve as efficient electron transport channels and expose additional adsorption sites,simultaneously increasing sodium storage capacity and intrinsic conductivity.The resultant S-OLHC demonstrates a remarkable sodium storage capacity of 358 mA h/g at 0.05 A/g after 200 cycles and maintains 231 mA h/g after 1000 cycles at 2 A/g.This strategy eliminates the need for additional pore-forming agents,offering a simpler,more efficient,and environmentally friendly approach compared to traditional activation methods.This work advances the rational design of high-performance biomass-derived hard carbon for SIBs by leveraging inherent structural characteristics and provides a sustainable low-carbon strategy for lignin valorization in renewable energy storage. 展开更多
关键词 Lignin-derived hard carbon Oxygen-containing functional groups SELF-ACTIVATION Microporous regulation Sodium-ion batteries
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Micropores in G20Mn5N cast steel and their influence on stress distribution 被引量:2
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作者 Yan Huadong Jin Hui 《Journal of Southeast University(English Edition)》 EI CAS 2024年第3期286-294,共9页
To accurately analyze the impact of casting pores in steel,high-resolution 3D X-ray tomography technology was used to gather detailed statistical information about micropores.These micropores were classified as gas,sh... To accurately analyze the impact of casting pores in steel,high-resolution 3D X-ray tomography technology was used to gather detailed statistical information about micropores.These micropores were classified as gas,shrinkage,and gas-shrinkage pores depending on their formation origin and morphology.Clustering tendencies and affinity parameters were defined to characterize the spatial correlations among these three types of pores.The 3D data from X-ray tomography scans were then integrated into finite element analysis(FEA)software to predict how micropore shape,size,and distribution influence stress distribution within the material.The results show that certain inflection points with small local radii within the cast pores are major contributors to stress concentration.Therefore,cast pores cannot be simply modeled as ideal spherical pores.The sphericity and volume of pores have a significant impact on the stress concentration of the model.Specifically,lower sphericity and larger pore volumes result in higher stress concentrations.Moreover,the internal pores of steel castings exhibit specific global distribution characteristics.Pores located on the surface of the specimen lead to significantly higher stress concentrations compared to those located inside the specimen. 展开更多
关键词 cast steel microporeS X-ray tomography 3D reconstruction finite element analysis
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A Model of Steady-State Convective Combustion of Micropore Propellants 被引量:2
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作者 王伯羲 《Journal of Beijing Institute of Technology》 EI CAS 1998年第1期107-112,共6页
Aim To develop a physical and mathematical model related to micropore para- meters of steady-state convective combustion of micropore propellants(MPP). Methods The micropore parameters were measured by WXT-88 mage ana... Aim To develop a physical and mathematical model related to micropore para- meters of steady-state convective combustion of micropore propellants(MPP). Methods The micropore parameters were measured by WXT-88 mage analysis apparatus and the convective combustion characteristic of MPP was measured by a large volume closed bomb, respectively. Rasults Statistical physical model of burning in the micropore and granular burning were developed. The burning rate equation of steady-state convective combustion of MPP was obtained. Conclusions This model correlates the convective burning rate with micropores para- meters for the first time,and the calculating values of convective burning rate are in agreement with test results.The model also can be used to estimate the effects of microporous parame- ters, basic mass burning rate, MPP density and pressure in combustion chamber on the convective combustion characteristics of MPP. 展开更多
关键词 micropore propellant (MPP) convective burning rate combustion model micropore parameters
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Comparative Analysis of Statistical Thickness Models for the Determination of the External Specific Surface and the Surface of the Micropores of Materials: The Case of a Clay Concrete Stabilized Using Sugar Cane Molasses
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作者 Nice Mfoutou Ngouallat Narcisse Malanda +3 位作者 Christ Ariel Ceti Malanda Kris Berjovie Maniongui Erman Eloge Nzaba Madila Paul Louzolo-Kimbembe 《Geomaterials》 2024年第2期13-28,共16页
In this work, four empirical models of statistical thickness, namely the models of Harkins and Jura, Hasley, Carbon Black and Jaroniec, were compared in order to determine the textural properties (external surface and... In this work, four empirical models of statistical thickness, namely the models of Harkins and Jura, Hasley, Carbon Black and Jaroniec, were compared in order to determine the textural properties (external surface and surface of micropores) of a clay concrete without molasses and clay concretes stabilized with 8%, 12% and 16% molasses. The results obtained show that Hasley’s model can be used to obtain the external surfaces. However, it does not allow the surface of the micropores to be obtained, and is not suitable for the case of simple clay concrete (without molasses) and for clay concretes stabilized with molasses. The Carbon Black, Jaroniec and Harkins and Jura models can be used for clay concrete and stabilized clay concrete. However, the Carbon Black model is the most relevant for clay concrete and the Harkins and Jura model is for molasses-stabilized clay concrete. These last two models augur well for future research. 展开更多
关键词 Statistical Thickness Model External Specific Surface Microporous Surface Clay Concrete MOLASSES
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Characterizing the Micropores in Lacustrine Shales of the Late Cretaceous Qingshankou Formation of Southern Songliao Basin, NE China 被引量:4
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作者 GE Mingna REN Shoumai +3 位作者 GUO Tianxu ZHOU Zhi WANG Shengjian BAO Shujing 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2018年第6期2267-2279,共13页
Micropores of shale are significant to the gas content and production potential of shale, which has been verified in the research of marine shale gas; while, few studies have been conducted on lacustrine shales. This ... Micropores of shale are significant to the gas content and production potential of shale, which has been verified in the research of marine shale gas; while, few studies have been conducted on lacustrine shales. This study collected 42 samples from three wells in the Late Cretaceous Qingshankou Formation of the southern Songliao Basin, NE China, and investigated these samples by the focused ion beam-scanning electron microscope(FIB–SEM) and nitrogen adsorption analysis techniques. Four types of micropores were identified in the samples, i.e., intergranular pore, intracellular pore, organic matter pore and microfracture. The pore structure type is characterized by open slit pores and "ink type" pores which are mainly 1.5–5 nm in diameter with mesopores as the main pores. The mesopores account for 74.01% of the pore volume and 54.68% of the pore surface area. Compared with the lacustrine shales from the Triassic Yanchang Formation in the Ordos Basin and Xujiahe Formation in the Sichuan Basin, the intergranular clay mineral interlayer pores are considered to be the main reservoir space for shale gas storage in the study area, followed by intraparticle pores, organic matter pores and microfractures. Maturity and micropore are the key controlling factors which affect the shale gas content of the Qingshankou Formation in southern Songliao Basin. 展开更多
关键词 microporeS lacustrine shale Cretaceous Qingshankou Formation southern Songliao Basin
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Micropores regulating enables advanced carbon sphere catalyst for Zn-air batteries 被引量:2
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作者 Jingsha Li Shijie Yi +3 位作者 Ranjusha Rajagopalan Zejie Zhang Yougen Tang Haiyan Wang 《Green Energy & Environment》 SCIE EI CSCD 2023年第1期308-317,共10页
Energy conversion technologies like fuel cells and metal-air batteries require oxygen reduction reaction(ORR)electrocatalysts with low cost and high catalytic activity.Herein,N-doped carbon spheres(N-CS)with rich micr... Energy conversion technologies like fuel cells and metal-air batteries require oxygen reduction reaction(ORR)electrocatalysts with low cost and high catalytic activity.Herein,N-doped carbon spheres(N-CS)with rich micropore structure have been synthesized by a facile two-step method,which includes the polymerization of pyrrole and formaldehyde and followed by a facile pyrolysis process.During the preparation,zinc chloride(ZnCl2)was utilized as a catalyst to promote polymerization and provide a hypersaline environment.In addition,the morphology,defect content and activity area of the resultant N-CS catalysts could be regulated by controlling the content of ZnCl2.The optimum N-CS-1 catalyst demonstrated much better catalytic activity and durability towards ORR in alkaline conditions than commercial 20 wt%Pt/C catalysts,of which the half-wave potential reached 0.844 V vs.RHE.When applied in the Zn-air batteries as cathode catalysts,N-CS-1 showed a maximum power density of 175 mW cm^(-2) and long-term discharging stability of over 150 h at 10 mA cm^(-2),which outperformed 20 wt%Pt/C.The excellent performance could be due to its ultrahigh specific surface area of 1757 m2 g1 and rich micropore channels structure.Meanwhile,this work provides an efficient method to synthesize an ultrahigh surface porous carbon material,especially for catalyst application. 展开更多
关键词 Zn-air batteries Oxygen reduction reaction N-doped carbon spheres microporeS Ultrahigh specific surface
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A Universal Strategy For N-Doped 2D Carbon Nanosheets With Sub-Nanometer Micropore For High-Performance Supercapacitor 被引量:1
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作者 Jiangqi Zhou Li Jiang +6 位作者 Chengyong Shu Long Kong Iqbal Ahmad Ya-Nan Zhou Wei Tang Xiaofei Sun Yuping Wu 《Energy & Environmental Materials》 SCIE EI CAS CSCD 2021年第4期569-576,共8页
Preparing carbon nanosheets with precise control of open porous morphology via universal process and understanding the relationship between structure and capacitive performance are very urgent for achieving advanced s... Preparing carbon nanosheets with precise control of open porous morphology via universal process and understanding the relationship between structure and capacitive performance are very urgent for achieving advanced supercapacitors.Herein,we propose a simple yet effective additive-free method to transform a bulk layered potassium phthalimide salt to novel nitrogen-doped twodimensional carbon sheets by self-activation during calcination.The obtained samples showed large-sized and flat structure with lateral size around 10μm,uniform sub-nanometer micropore size distribution of about 0.65 nm dimension,large specific surface area up to 2276.7 m^(2)g^(-1),and suitable nitrogen doping.Benefited from these merits,the optimized sample delivers a high specific capacitance of 345 F g^(-1)at 1 A g^(-1)and retains 270 F g^(-1)even at 50 A g^(-1)in6.0 M KOH electrolyte.Remarkably,the symmetric supercapacitor shows maximum energy densities of 16.43 Wh kg^(-1)and 23.6 Wh kg^(-1)in 6.0 M KOH and 1.0 M Na_(2)SO_(4)electrolytes,respectively.Importantly,on account the universality and simplicity of this method,the undoped as-prepared carbon sheet with uniform sub-nanometer micropore distribution can be synthesized from different potassium-containing salts with layered structure,which can be employed as a model for a deep understanding the effect of sub-nanometer micropores on capacitive performances.We find the number of micropores centered at 0.65 nm can be applied as one indicator to clarify the correlation between capacitance and critical pore size below 1 nm. 展开更多
关键词 universal strategy sub-nanometer micropore carbon nanosheet supercapacitors
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The nonlinear propagation of acoustic waves in a viscoelastic medium containing cylindrical micropores 被引量:1
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作者 冯雨霖 刘晓宙 +1 位作者 刘杰惠 马力 《Chinese Physics B》 SCIE EI CAS CSCD 2009年第9期3909-3917,共9页
Based on an equivalent medium approach, this paper presents a model describing the nonlinear propagation of acoustic waves in a viscoelastic medium containing cylindrical micropores. The influences of pores' nonlinea... Based on an equivalent medium approach, this paper presents a model describing the nonlinear propagation of acoustic waves in a viscoelastic medium containing cylindrical micropores. The influences of pores' nonlinear oscillations on sound attenuation, sound dispersion and an equivalent acoustic nonlinearity parameter are discussed. The calculated results show that the attenuation increases with an increasing volume fraction of micropores. The peak of sound velocity and attenuation occurs at the resonant frequency of the micropores while the peak of the equivalent acoustic nonlinearity parameter occurs at the half of the resonant frequency of the micropores. Furthermore, multiple scattering has been taken into account, which leads to a modification to the effective wave number in the equivalent medium approach. We find that these linear and nonlinear acoustic parameters need to be corrected when the volume fraction of micropores is larger than 0.1%. 展开更多
关键词 NONLINEARITY cylindrical micropores equivalent medium approach multiple scattering
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CONCENTRATION PARTITION OF PROTEIN SOLUTION IN A MICROPORE:EFFECT OF ELECTROSTATIC INTERACTION
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作者 何志敏 张海洋 +2 位作者 余国琮 Diego Barba Daniela Spera 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 1996年第2期21-28,共8页
A theory for calculating the electrostatic interaction between protein molecules and the wallof a liquid-filled micropore is established in terms of solving the Laplace and the linearPoisson-Boltzmann equations.The su... A theory for calculating the electrostatic interaction between protein molecules and the wallof a liquid-filled micropore is established in terms of solving the Laplace and the linearPoisson-Boltzmann equations.The surface charge of protein molecules is measured by theelectrophoresis velocity,whilethe charge of the pore wall is obtained by the ionic Donnan equilibrium.The theory is then used to study the influence of solute-pore electrostatic interaction on theconcentration partition of protein solution in a micropore under different solution properties.Experi-mental verification is performed by detecting the hindered diffusion of bovine serum albumin in thetrack-etched polycarbonate membranes.A good consistence between the theoretical and experimentaldata is being achieved. 展开更多
关键词 PROTEIN CONCENTRATION PARTITION micropore ELECTROSTATIC interaction
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Healing Behavior of Micropores in Powder Metallurgy 316L Stainless Steel during Hot Forging and Heat Treatment
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作者 Ying KAN Shi-hong ZHANG +3 位作者 Li-wen ZHANG Ming CHENG Hong-wu SONG Hong-wei LU 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2014年第9期862-868,共7页
The healing behavior of micropores in powder metallurgy (P/M) 316L stainless steel during hot forging and subsequent heat treatment was studied. The results showed that hot forging can improve the homogeneity of the... The healing behavior of micropores in powder metallurgy (P/M) 316L stainless steel during hot forging and subsequent heat treatment was studied. The results showed that hot forging can improve the homogeneity of the pore size and enhance the relative density of material in varying degree due to different forging temperatures. As a re- sult of deformation and diffusion bonding at high temperature, the irregular pores were spheroidized and finally turned into stable inner grain pores. The comparison of compression behavior between P/M and wrought dense mate rials has shown that the pores can either be the obstacles of dislocation movement or be the nucleation sites accelera- ting the reerystallization according to the difference of deformation temperatures. 展开更多
关键词 powder metallurgy 316L stainless steel microstructural evolution densification behavior micropore
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Growth of Casting Microcrack and Micropore in Single-crystal Superalloys Analysed by Three-Dimensional Unit Cell
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作者 Jiansong WAN Zhenzhou LU Zhufeng YUE 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2006年第2期183-189,共7页
Finite element (FE) analysis was employed to investigate the casting microcrack and micropore growth in nickel-base single-crystal superalloys DD3. Based on the finite deformation rate-dependent crystallographic con... Finite element (FE) analysis was employed to investigate the casting microcrack and micropore growth in nickel-base single-crystal superalloys DD3. Based on the finite deformation rate-dependent crystallographic constitutive equation, the simulations of casting microcrack and micropore growth in three-dimensional unit cell model were carried out in a range of parameters including stress triaxiality, Lode parameter and type of activated slip systems. The FE results show that the stress triaxiality has profound effects on growth behavior, and the Lode parameter is also important for the casting microcrack and micropore growth. The type of operative slip systems has remarkable effect on casting microcrack and micropore growth, so the life of single- crystal component is associated with the type of activated slip systems, which is related to Schmid factor and the number of activated slip systems. The growth comparison between microcrack and micropore reveals that when the material is subjected to large deformation, the growth rate of microcrack is faster than that of micropore, i.e. microcrack is more dangerous than micropore; the microcrack is easier to result in brittle fracture than micropore. The stress triaxiality and Lode parameter have strong influence on the growth of microcrack and micropore. 展开更多
关键词 Casting micropore Casting crack Single-crystal superalloys Crystallographic constitutive equation
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Characterization of cellulose acetate micropore membrane immobilized acylase Ⅰ
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作者 郭永胜 王杰 宋锡谨 《Journal of Zhejiang University Science》 CSCD 2004年第12期1608-1612,共5页
This paper describes an innovative method for the immobilization of acylase I, which was entrapped into the CA-CTA micropore membrane. The most suitable casting solutions proportion for immobilizing the enzyme was obt... This paper describes an innovative method for the immobilization of acylase I, which was entrapped into the CA-CTA micropore membrane. The most suitable casting solutions proportion for immobilizing the enzyme was obtained through orthogonal experiment. Properties of the enzyme membrane were investigated and compared with those of free enzyme and blank membrane. The thermal stability and pH stability of the enzyme inside the membrane were changed by immobilization. The optimum pH was found to be 6.0, which changes 1.0 unit compared with that of free acylase I. The optimum temperature was found to be about 90℃, which is higher than that of free acylase I (60℃). Experimental results showed that immobilization had effects on the kinetic parameters of acylase I. 展开更多
关键词 Acylase I CA-CTA micropore membrane Enzyme immobilization Orthogonal experiment
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Effect of Thermal Treatment of the Hydroxyapatite Powders on the Micropore and Microstructure of Porous Biphasic Calcium Phosphate Composite Granules
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作者 David S. H. Lee Yuni Pai Steve Chang 《Journal of Biomaterials and Nanobiotechnology》 2013年第2期114-118,共5页
The effect of thermal treatment of the hydroxyapatite powders on the micropore structure of porous biphasic calcium phosphate (BCP) granules was examined. The porous BCP granules could be attained through mixing and s... The effect of thermal treatment of the hydroxyapatite powders on the micropore structure of porous biphasic calcium phosphate (BCP) granules was examined. The porous BCP granules could be attained through mixing and sintering/fracturing thermally treated 60 wt% hydroxyapatite powders and calcined 40 wt% β-tricalcium phosphate powders. The observed Scanning electron microscopy (SEM) morphologies showed that the density of micropores (0.1 - 2.0 μm) including interconnected micropores of the porous BCP granules mixed with hydroxyapatite powders thermally treated at 900°C was significantly improved and the composite particles of porous BCP granules were homogeneously mixed and distributed. This result indicates that the particles of hydroxyapatite powders that have a tendency to agglomerate at a room temperature were well isolated and dispersed through thermal treatment processing before mixing with calcined β-tricalcium phosphate powders. The microstructural characterizations such as phase purity and composition of porous BCP granules were performed and verified by X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FT-IR) analysis. 展开更多
关键词 BCP COMPOSITE HYDROXYAPATITE Thermal Treatment micropore Structure
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Hyper-crosslinked Conjugated Microporous Polymers with Increased Micropores Promotes Confining Polymerization for Electromagnetic Absorption Application 被引量:2
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作者 Hao Chen Fang-Yuan Chu +5 位作者 Hai-Yan Zhuang Lu Wang Zhi-Min Ye Wei Dong Zhi-Peng Xie A-Ming Xie 《Chinese Journal of Polymer Science》 SCIE EI CAS CSCD 2023年第8期1305-1316,I0011,共13页
Conjugated microporous polymers have excellent skeleton structures but poor electrical conductivity limits their applications in microwave absorption.To solve this problem,a strategy of molecular expansion and confini... Conjugated microporous polymers have excellent skeleton structures but poor electrical conductivity limits their applications in microwave absorption.To solve this problem,a strategy of molecular expansion and confining polymerization is proposed in this work to synthesize conductive hyper-crosslinked conjugated microporous polymer.The topology of the conjugated microporous polymer is changed into a three-dimensional skeleton structure with high specific surface area by using molecular expansion technique,and the controlled growth of polypyrrole in the channel constructs a unique network structure.The balance of excellent composite backbone structure,proper conductivity,attenuation capability and impedance matching enable the material to exhibit electromagnetic wave absorption performance.As a result,with low filler loading of 10 wt%,a strongest reflection loss of-52.68 d B and a maximum effective bandwidth of 5.76 GHz.Additionally,CST simulations of the radar scattering cross section have been carried out to verify the excellent material properties.This study provides new concepts for new conductive polymers and broadens the application of hyper-crosslinked conjugated microporous polymer in the field of electromagnetic wave absorption. 展开更多
关键词 Hyper-crosslinked conjugated microporous polymer Electromagnetic wave absorbing Molecular expansion Polypyrrole
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Biomass-derived N-doped porous carbon supported single Fe atoms as low-cost and high-performance electrocatalysts for oxygen reduction reaction
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作者 WANG Li-ping XIAO Jin +1 位作者 MAO Qiu-yun ZHONG Qi-fan 《Journal of Central South University》 2025年第4期1368-1383,共16页
Single-atom catalysts(SACs)are promising for oxygen reduction reaction(ORR)on account of their excellent catalytic activity and maximum utilization of atoms.However,due to the complicated preparation processes and exp... Single-atom catalysts(SACs)are promising for oxygen reduction reaction(ORR)on account of their excellent catalytic activity and maximum utilization of atoms.However,due to the complicated preparation processes and expensive reagents used,the cost of SACs is usually too high to put into practical application.The development of cost-effective and sustainable SACs remains a great challenge.Herein,a low-cost method employing biomass is designed to prepare efficient single-atom Fe-N-C catalysts(SA-Fe-N-C).Benefiting from the confinement effect of porous carbon support and the coordination effect of glucose,SA-Fe-N-C is derived from cheap flour by the two-step pyrolysis.Atomically dispersed Fe atoms exist in the form of Fe-N_(x),which acts as active sites for ORR.The catalyst shows outstanding activity with a half-wave potential(E_(1/2))of 0.86 V,which is better than that of Pt/C(0.84 V).Additionally,the catalyst also exhibits superior stability.The ORR catalyzed by SA-Fe-N-C proceeds via an efficient 4e transfer pathway.The high performance of SA-Fe-N-C also benefits from its porous structure,extremely high specific surface area(1450.1 m^(2)/g),and abundant micropores,which are conducive to increasing the density of active sites and fully exposing them.This work provides a cost-effective strategy to synthesize SACs from cheap biomass,achieving a balance between performance and cost. 展开更多
关键词 oxygen reduction reaction single-atom catalyst porous carbon micropore biomass
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Enlarging ion-transfer micropore channels of hierarchical carbon nanocages for ultrahigh energy and power densities 被引量:1
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作者 Jin Zhao Hao Fan +5 位作者 Guochang Li Qiang Wu Lijun Yang Yanwen Ma Xizhang Wang Zheng Hu 《Science China Materials》 SCIE EI CAS CSCD 2021年第9期2173-2181,共9页
Increasing the energy density of supercapacitor without sacrificing its high power is an everlasting pursuit in energy storage.Using ionic liquid electrolyte with high operating voltage can increase the energy density... Increasing the energy density of supercapacitor without sacrificing its high power is an everlasting pursuit in energy storage.Using ionic liquid electrolyte with high operating voltage can increase the energy density but usually at the expense of power density due to the large ion size,low ionic conductivity and high viscosity.Herein we demonstrate a simultaneous increase of the energy and power densities with ionic liquid electrolyte(EMIMBF4)mainly by enlarging the ion-transfer micropore channels of the electrode material,i.e.,the unique hierarchical carbon nanocages(hCNC).Boudouard reaction is adopted to tune the micropore size while remaining the hierarchical framework of hCNC.Meanwhile,the specific surface area,pore volume and conductivity are also increased under optimal activation temperature.Such a unique modification boosts the large-sized ion transfer,leading to the obvious decrease of equivalent series resistance and the dramatic increase of supercapacitive performance thereof.The optimized product exhibits an energy density up to 153.8 W h kg^(-1) at the power density of 1.8 kW kg^(-1),and maintains 54.0 W h kg^(-1) even at an ultrahigh power density of 480.1 kW kg^(-1).This study demonstrates an effective way to explore advanced electrode materials by the fine regulation of micropores and related properties. 展开更多
关键词 supercapacitors ultrahigh energy and power densities hierarchical carbon nanocages micropore enlarging ionic liquid electrolyte
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Transport Properties of Fluids in Micropores by Molecular Dynamics Simulation 被引量:1
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作者 刘迎春 王琦 吕玲红 《Chinese Journal of Chemistry》 SCIE CAS CSCD 2004年第3期238-242,共5页
The transport properties of fluid argon in micropores, i.e. diffusivity and viscosity, were studied by molecular dynamics simulations. The effects of pore width, temperature and density on diffusivity and viscosity we... The transport properties of fluid argon in micropores, i.e. diffusivity and viscosity, were studied by molecular dynamics simulations. The effects of pore width, temperature and density on diffusivity and viscosity were analyzed in micropores with pore widths from 0.8 to 4.0 nm. The results show that the diffusivity in micropores is much lower than the bulk diffusivity, and it decreases as the pore width decreases; but the viscosity in micropores is significantly larger than the bulk one, and it increases sharply in narrow micropores. The diffusivity in channel parallel direction is obviously larger than that in channel perpendicular direction. The temperature and density are important factors that obviously affect diffusivity and viscosity in micropores. 展开更多
关键词 micropore transport property molecular dynamics simulation
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Formation of a silicon micropore array of a two-dimension electron multiplier by photo electrochemical etching
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作者 高延军 端木庆铎 +2 位作者 王国政 李野 田景全 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2009年第2期13-16,共4页
A semiconductor PEC etching method is applied to fabricate the n-type silicon deep micropore channel array. In this method, it is important to arrange the direction of the micropore array along the crystal orientation... A semiconductor PEC etching method is applied to fabricate the n-type silicon deep micropore channel array. In this method, it is important to arrange the direction of the micropore array along the crystal orientation of the Si substrate. Otherwise, serious lateral erosion will happen. The etching process is also relative to the light intensity and HF concentration. 5% HF concentration and 10-15 cm distance between the light source and the silicon wafer are demonstrated to be the best in our experiments. The n-type silicon deep micropore channel array with aperture of 3/2m and aspect ratio of 40-60, whose inner walls are smooth, is finally obtained. 展开更多
关键词 photo-electrochemical etching MCP electron multiplier micropore deep-channel n-type silicon
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Microporous 3D bioprinting:a novel technology for biofabrication
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作者 Hongxiang Cai Yongrui Cai +8 位作者 Zichuan Ding Jiaxuan Fan Yahao Lai Chao Huang Boyi Jiang Can Zhou Zongke Zhou Xingcai Zhang Zeyu Luo 《Bio-Design and Manufacturing》 2025年第5期847-876,I0069,共31页
Three-dimensional(3D)bioprinting provides a rapid and efficient method for fabricating customized bioprinted tissues that replicate the complex architecture of native tissues.However,in 3D bioprinting,the need for den... Three-dimensional(3D)bioprinting provides a rapid and efficient method for fabricating customized bioprinted tissues that replicate the complex architecture of native tissues.However,in 3D bioprinting,the need for dense biomaterial networks to ensure mechanical strength and structural fidelity often restricts the spreading,migration,and proliferation of encapsulated cells,as well as the transport of materials.This review summarizes effective strategies for manufacturing microporous bioprinted tissues via 3D bioprinting.The term“microporous”refers to interconnected,micrometer-sized pore-like structures within the internal materials of bioprinted tissues,including the microstructure of a single extruded fiber in extrusion printing.This differs from the macroscopic pore structure formed between fibers composed of print tracks or computer-aided design presets.These micropores play a crucial role in advancing biomanufacturing and 3D bioprinting by providing space for cell adhesion and proliferation while facilitating the timely transport of nutrients and metabolic waste essential for cell growth.Additionally,microporous bioprinted tissues offer the mechanical support needed for cell seeding and serve as sites for extracellular matrix deposition.As microporous 3D bioprinting continues to advance,it has the potential to address unresolved challenges in fields such as organ transplantation,tissue regeneration,and tissue replacement. 展开更多
关键词 BIOPRINTING MICROPOROUS HYDROGEL BIOFABRICATION
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Fluorinated Monodisperse Microporous Microspheres:Formation Mechanism,Assembly,and Molecular Separation
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作者 Si-Yu Wang Xin-Rui Xu +3 位作者 Xin-Xin Qiu Xiao-Li Huang Xin-Qi Wang Zhi-Yong Chen 《Chinese Journal of Polymer Science》 2025年第1期162-176,I0012,共16页
The construction of monodisperse microporous organic microspheres is deemed a challenging issue,primarily due to the difficulty in achieving both high microporosity and uniformity within the microspheres.In this study... The construction of monodisperse microporous organic microspheres is deemed a challenging issue,primarily due to the difficulty in achieving both high microporosity and uniformity within the microspheres.In this study,a series of fluorinated monodisperse microporous microspheres are fabricated by solvothermal precipitation polymerization.The resulting fluorous methacrylate-based microspheres achieved higher than 400 m^(2)/g surface area,along with a yield of over 90%for the microspheres.Through comprehensive characterization and simulation methods,we discovered that the introduction of fluorous methacrylate monomers at high loading levels is the key factor contributing to the formation of the microporosity within the microspheres.The controlled temperature profile was found to be advantageous for achieving a high yield of microspheres and increased uniformity.Two-dimensional assemblies of these fluorinated microsphere arrays exhibited superhydrophobicity,superolephilicity,and water sliding angles below 10°.Furthermore,a three-dimensional assembly of the fluorinated microporous microsphere in a chromatographic column demonstrated significant improvement in the separation of Engelhardt agent compared to commercial columns.Our work offers a novel approach to constructing fluorinated monodisperse microporous microspheres for advanced applications. 展开更多
关键词 Microporous microsphere Precipitation polymerization Fluorinated microsphere SUPERHYDROPHOBICITY Molecular separation
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