期刊,稀土学报（英文版） 2024年卷10期_国家学术搜索

期刊信息/Journal information

稀土学报（英文版）

主　　编：徐光宪

出版周期：月刊

国际刊号：1002-0721

电子邮箱：jrechina@263.net xtxb@grinm.com

电　　话：010-62014832

邮政编码：100088

地　　址：北京新街口外大街2号中国稀土学报编辑部

稀土学报（英文版）/Journal Journal of Rare EarthsCSCDCSTPCD北大核心EISCI

查看更多>>本学报是由中国稀土学会主办、北京有色金属研究总院承办、北京大学协办的综合性学术刊物。它涉及的主要内容有稀土化学与湿法冶金；稀土金属学与湿法冶金；稀土新材料（磁性材料、超导材料、纳米材料等）；稀土固体物理与固体化学；稀土应用研究；稀土分析检测；稀土地质、矿物和选矿等。主要栏目有综合评述、学术论文、研究快报及研究简报等。

正式出版

收录年代

Compositional tuning of A2B7-type La0.7-xYxMg0.3Ni3.5 alloys for gaseous hydrogen storage

Junkun DuHui WangRenheng TangJiangwen Liu...

1912-1919页

查看更多>>摘要：Rare earth-based superlattice alloys have great potential for gaseous hydrogen storage,as well as suc-cessful application as nickel-metal hydride batteries anodes.In this work,Y substitution was carried out to adjust the gaseous hydrogen storage properties of A2B7-type La0.7Mg0.3Ni3.5 alloys.The results indicate a multiphase structure in the alloys comprised of the main rhombohedral Gd2Co7 and PuNi3 phases,with a small amount of CaCu5 phase.Moreover,the Y substitution results in higher abundance of the Gd2Co7 phase.The alloy La0.42Y0.28Mg0.3Ni3.5 exhibits a hydrogen storage capacity of 1.55 wt％at 298 K and a desorption plateau pressure of 0.244 MPa.In addition,this alloy demonstrates a stable cycle life by a capacity retention of 94.2％after 50 cycles,with the main capacity degradation occurring during the initial 20 cycles.This work accentuates the potential of the La-Y-Mg-Ni-based superlattice alloys for applications in solid-state hydrogen storage.

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BaTiO3 solid solutions co-doped with Gd3+and Eu3+:Synthesis,structural evolution and dielectric properties

R.Martínez-LópezM.Pérez-LabraJ.A.Romero-SerranoF.R.Barrientos-Hernández...

1920-1926页

查看更多>>摘要：In this paper,the synthesis,structural evolution,and dielectric properties of BaTiO3 solid solutions co-doped with rare earth elements(Gd3+and Eu3+)prepared using the solid-state reaction method are presented.Chemically pure precursor powders of BaCO3,TiO2,Gd2O3,and Eu2O3 were mixed in stoi-chiometric proportions,ground in an agate mortar before being uniaxially pressed at 250 MPa and sintered at 1300 ℃ in air atmosphere for 6 h to obtain Ba1-3xGd2xTi1-3xEu4xO3(x=0,0.0015,0.01 and 0.1).X-ray diffraction(XRD)and Rietveld's refinement results reveal the crystal phase ferroelectric tetragonal BaTiO3 for the samples with x=0,0.0015 and 0.01,as well as a consistent increment in the lattice parameters caused by the doping.The solubility limit of Gd3+and Eu3+in the BaTiO3 structure is reached for the sample with x＞0.01,and the orthorhombic Eu2TiO5 and monoclinic BaTi2O5 secondary phases were identified.The Raman results show the characteristic peaks of ferroelectric tetragonal BaTiO3 around 716 cm-1(LO of A1 symmetry),515 cm-1(TO of A1 symmetry),and 305 cm-1(B1).The maximum relative permittivity measured at 1 kHz was recorded to be 6151.8 for the sample with x=0.0015,and a decrease in the Curie temperature to 105 ℃ with respect to the undoped sample was observed.The punctual microanalysis for the samples with x=0.0015,0.01,and 0.1 reveals grains composed of Ba,Ti,O,Gd,and Eu homogeneously distributed in the BaTiO3 structure.The Ba/Ti ratios for samples with x=0.0015,0.01 and 0.1 are 2.86,2.91,and 0.68,respectively,indicating substitution at the Ti site for samples with x=0.0015 and 0.01 and a substitution at the Ba site for the sample with x=0.1.

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Optoelectronic and thermoelectric properties of spinel chalcogenides HgLa2X4(X=S and Se):A first-principles study

Aparna DixitInas A.AhmedJisha Annie AbrahamZeinhom M.El-Bahy...

1927-1936页

查看更多>>摘要：We investigated spinel chalcogenides HgLa2(S/Se)4 by using density function theory,and scrutinized the structural,optical,electrical,mechanical and thermoelectric transport characteristics of HgLa2(S/Se)4 spinel chalcogenides.The enthalpy of formation,energy of cohesion,and energy volume optimum plots were used to obtain the stability as well as the perfect ground state of these materials.The ductility of these materials was the best illustrated with the help of Poisson's and Pugh's ratios.The band gap results were obtained using Trans and Blaha modified Becke-Johanson potential(TB-mBJ).Both the materials present semi-conducting nature with direct band gap equal to 1.449 and 0.892 eV respectively for HgLa2S4 and HgLa2Se4.Calculations were also made for optical characteristics with the values of dielectric function,absorption coefficient,optical conductivity,reflectivity,and refractive indices.Ac-cording to the findings,both of these materials are suitable for infrared optoelectronic applications.These materials were found to have promising optoelectronic and thermoelectric applications after their optical properties and transport aspects were evaluated.Despite tiny levels of temperature conductiv-ities,substantial amounts of power conductivities,the figure of merit(more than unity),as well as Seebeck coefficients all point to the potential use of both the materials in thermoelectric power generators.

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A novel(Sm0.2Eu0.2Gd0.2Ho0.2Yb0.2)CrO3 high-entropy ceramic nanofiber as a negative temperature coefficient thermistor

Weijun ZhaoMeng ZhangLiyan XueKaixian Wang...

1937-1942页

查看更多>>摘要：The electrical properties of high-entropy ceramics(HECs)have been extensively studied in recent years due to their unique structural characteristics and fascinating functional properties induced by entropy engineering.Novel high-entropy(Sm0.2Eu0.2Gd0.2Ho0.2Yb0.2)CrO3(HE-RECrO3)nanofibers were prepared by electrospinning.This work demonstrates that HE-RECrO3 nanofibers were successfully synthesized at a low temperature(800 ℃),which is approximately 400 ℃ lower than the temperatures at which chromate ceramics were synthesized via the sol-gel method and the solid-state reaction method.The resistivity of HE-RECrO3 nanofibers decreases exponentially with increasing temperature from 25 to 600 ℃.The logarithm of the resistivity is linearly related to the inverse of the temperature,confirming the negative temperature coefficient property of HE-RECrO3 nanofibers.The B25/50 value of the HE-RECrO3 nanofibers reaches 4072 K.In conclusion,HE-RECrO3 nanofibers are expected to be potential candidates for negative-temperature-coefficient(NTC)thermistors.

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Solvent extraction of scandium from leaching solution of red mud roasted with ammonium sulfate using D2EHPA/TBP

Fucheng LiXinsheng LiLei ShiXiang Li...

1943-1949页

查看更多>>摘要：Red mud is an important secondary resource for scandium production.The red mud leaching solution containing scandium in this study was derived from environmentally friendly ammonium sulfate roasting and water leaching process.A synergistic extraction with a mixture of di(2-ethylhexyl)phos-phate acid(D2EHPA)and tributyl phosphate(TBP)for recovery of scandium from red mud leaching solution is proposed.The effects of D2EHPA concentration,H2SO4 concentration,rare earth elements,dosage of TBP,phase ratio(A/O),contact time and H2O2 concentration on scandium extraction were investigated.The results show that more than 99％scandium is extracted under the optimal conditions while Fe,Al,Ti,Ca and rare earth elements(Ce,Y,La,Nd,Er,etc.)are hardly extracted.The stripping efficiency of Sc reaches above 92.37％under the optimal stripping conditions of 5 mol/L NaOH with an A/O of 1 at 90 ℃ for 30 min.The proposed technology could provide an effective method for extraction of scandium from red mud leaching solution.

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Europium recovery process by means of polymeric nanoparticles functionalized with acrylic acid,curcumin and fumaramide

P.A.Martínez-MontoyaJ.M.del RíoA.de J.Morales-RamirezM.Corea...

1950-1959页

查看更多>>摘要：Polymeric nanoparticles of poly(methyl methacrylate)were obtained by emulsion polymerization techniques in a process of two stages.The particles were functionalized with acrylic acid,curcumin,and fumaramide and three series of polymeric particles were obtained.The incorporation of functional groups was confirmed by Fourier transform-infrared spectrosocopy(FT-IR)and ultraviolet-visible(UV-Vis)methods.The spherical morphology of particles with an average diameter of 100 nm was observed by scanning electron microscopy(SEM).The polymeric materials were used for recovery of[Eu]from synthetic solutions.The nanoparticles show excellent chelation capacity to trap rare-earth ions,because they recover more than 85％of[Eu]at pH of 2.The images of SEM after extraction process show arrays between particles with larger average particle sizes to 1.5 μm.In addition,the particles have a good stripping capacity,exceeding 50％of it,maintaining their homogeneity in morphology and good stability in dispersion for the recovery and stripping processes.A pseudo-second model order is obtained for the extraction and stripping processes while the best results of stripping process are obtained at pH of 6.

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Vine pruning waste-based activated carbon for cerium and lanthanum adsorption from water and real leachate

Raphael Forgearini PinheiroAlejandro GrimmKátia da Boit MartinelloMohammad Rizwan Khan...

1960-1968页

查看更多>>摘要：In this study,vine pruning wastes(VPW)were used as raw material to develop an alternative activated carbon(VPW-AC)for adsorbing and concentrating rare earth elements cerium(Ce(Ⅲ))and lanthanum(La(Ⅲ))from synthetic and real leachate solutions.The Ce and La adsorption studies evaluated the effects of VPW-AC dosage,pH,contact time,rare earth initial concentration,and temperature.The VPW-AC adsorbent was subjected to many physicochemical characterization methods to correlate and under-stand its adsorptive performance.The characterization data indicate a carbonaceous adsorbent with a specific surface area of 467 m2/g.Zeta potential indicates a material with a negatively charged surface at a pH higher than 3.1,which is extremely beneficial to cations removal.For both rare earths elements(REEs),the adsorption capacity increases with the increase of the pH,reaching its maximum at pH 4-6.The kinetic data are well fitted by Avrami-fractional order,while the Liu model agreeably fits equilibrium data.The maximum adsorption capacities for Ce(Ⅲ)and La(Ⅲ)are 48.45 and 53.65 mg/g at 298 K,respectively.The thermodynamic studies suggest that the adsorption process is favorable,spontaneous,and exothermic for both REEs.Pore filling,surface complexation,and ion exchange are the dominant mechanisms.Finally,the VPW-AC was subjected to the recovery of REEs from real phosphogypsum leachate,and it is proved that it can be successfully used to recover REEs in a real process.

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Decomposition of monazite in Bayan Obo rare earth ore by roasting of Na2CO3 pellets

Ruifeng MaJianfei LiXiaowei ZhangPeijie Jia...

1969-1978页

查看更多>>摘要：To resolve the issue of rotary kiln agglomeration during the sodium carbonate roasting of dolomite rare earth ore,this study introduces an oxidation-sodization pellet roasting method for decomposing mixed rare earth concentrates.The focus of this paper lies in understanding the bonding and roasting mech-anism of sodium polyacrylate as a binder to dolomite ore and examining the process index of Na2CO3 pellets roasting-acid leaching using X-ray diffraction(XRD),scanning electron microscopy with energy dispersive spectroscopy(SEM-EDS),and zeta potential analysis.The results indicate that sodium poly-acrylate facilitates the bonding of sodium carbonate to monazite via adsorption of positive and negative charges,and upon roasting at 750 ℃ for 1.5 h to obtain rare earth oxides.Under conditions of a hy-drochloric acid(HCl)concentration of 9 mol/L,a reaction for 60 min,a solid-to-liquid ratio(g:mL)of 1:5,and reaction temperature of 90 ℃,the leaching rates of rare earth elements and thorium(Th)reached maxima of 85.14％and 95.53％,respectively.The process results in a yield of 47.61％for fluorine(F)and 89.25％for phosphorus(P).This research forms a foundation for the sodium carbonate roasting decomposition of mixed rare earth concentrates.

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Recovery of rare earth elements from rare earth molten salt electrolytic slag via fluorine fixation by MgCl2 roasting

Minghui ZhangBingxuan HeYinliang LiuLuewei Xu...

1979-1987页

查看更多>>摘要：Rare earth fluoride molten-salt electrolytic slag(REFES)is a precious rare earth element(REE)secondary resource,and considerable amounts of REEs exist in REFES as REF3;they are difficult to dissolve in acid or water and impede efficient REE extraction.In REFES recovery,the REF3 species in REFES are usually transformed into acid-soluble rare earth compounds by NaOH roasting or sulfating roasting and then extracted by acid leaching.Moreover,the fluorides in REFES are released as HF gas in the roasting process or enter the liquid phase during the water washing process;both of these processes cause fluorine pollution.Fixing the fluorine into the solid slag provides a way to avoid fluorine pollution.In this study,a novel method was proposed to extract REEs from REFES via MgCl2 roasting followed by HCl leaching.Thermodynamics calculations and thermogravimetry-differential thermal analyses(TG-DTA)were conducted to investigate the reactions occurring in the roasting process.First,MgCl2 reacts with the REF3 and RE2O3 to form RECl3 and REOCl,respectively.Second,the RECl3 absorbs water and forms RE(OH)3.Third,MgCl2·6H2O is gradually dehydrated to MgCl2·2H2O and reacts with REF3 and RE(OH)3,and REOCl,MgF2 and MgO are formed.Through HCl leaching,the REOCl in the roasting products is leached by HCl acid,while fluoride remains in the solid slag as MgF2.The optimum experimental conditions are as follows:mass ratio of MgCl2 to REFES of 30％,roasting temperature of 700 ℃,roasting time of 2 h,hy-drochloride acid concentration of 4 mol/L,leaching time of 2 h,leaching temperature of 90 ℃ and leaching L/S ratio of 20∶1.The efficiencies for total leaching of the REEs,La,Ce,Pr,and Nd are 99.13％,99.20％,98.42％,99.38％,and 99.08％,respectively.Moreover,the concentration of fluoride in the leaching solution is 2.191 × 10-6 mol/L.This method has a short process flow with low reagent costs,and the problem of fluoride pollution from REFES recovery is solved;thus,our study has great industrial application potential.

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Influence of erbium addition on microstructure and performances of AlSi10Mg alloy prepared by selective laser melting

Bin ChenFuzhu WangShiming RenPeng Xia...

1988-1994页

查看更多>>摘要：The effect of rare earth addition on the microstructure and mechanical performances of as-cast and wrought Al alloys has been attracting increasing attention recently.Rare earth addition has great po-tential in modifying the structure and improving the properties of materials.However,there are currently few reports about the effect of rare earth addition on the microstructure and performances of Al alloys prepared via selective laser melting.Here,AlSi10Mg alloys were manufactured using selective laser melting,and the effect of Er addition was investigated.The results indicate that Er addition leads to α-Al refinement and modifies the minority Si phase.The formation of the Al33Er phase induced by Er addition enhances the strength of the material.Modification of the Si phase also increases ductility.This strategy can help improve the mechanical performance of aluminum alloys prepared via selective laser melting.

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