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Zintl相Mg_(3)X_(2)(X=Sb,Bi)基晶体生长及热电性能研究进展
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作者 林思琪 李艾燃 +2 位作者 付晨光 李荣斌 金敏 《无机材料学报》 SCIE EI CAS CSCD 北大核心 2023年第3期270-279,共10页
Zintl相Mg_(3)X_(2)(X=Sb,Bi)基热电材料以其无毒性、价格低及性能高等优点而备受关注。与多晶相比,Mg_(3)X_(2)晶体在揭示材料本征热电性能、各向异性性质及电声输运调控策略等方面极具研究价值。本文系统归纳与总结近年Mg_(3)X_(2)基... Zintl相Mg_(3)X_(2)(X=Sb,Bi)基热电材料以其无毒性、价格低及性能高等优点而备受关注。与多晶相比,Mg_(3)X_(2)晶体在揭示材料本征热电性能、各向异性性质及电声输运调控策略等方面极具研究价值。本文系统归纳与总结近年Mg_(3)X_(2)基晶体的生长及热电性能发展现状。针对Mg_(3)X_(2)晶体生长过程中Mg元素易挥发和活泼金属性的难点,多种技术如合适的温度冷却法、定向凝固法、助熔剂法、助熔剂坩埚下降法等被开发运用于生长Mg_(3)X_(2)晶体,其中助熔剂坩埚下降法在获得大尺寸块状晶体方面更有竞争力。n型和p型Mg_(3)Sb_(2)晶体都呈现出各向异性的热电性能。调控晶体生长速度、Mg元素自补偿含量、杂质元素掺杂与固溶含量等手段,都会影响Mg_(3)X_(2)晶体的电学性能和热学性能。目前p型和n型Mg_(3)Sb_(2)基晶体的最高ZT值可分别达到0.68和0.82。本文综述了Zintl相Mg_(3)X_(2)基晶体生长与热电性能的研究进展,发现助熔剂坩埚下降法是制备大尺寸Mg_(3)X_(2)基晶体的关键,通过元素掺杂及固溶方法调控载流子浓度和能带结构可以进一步提高Mg_(3)X_(2)基晶体性能。该生长方法和研究思路对将来Mg_(3)X_(2)基晶体制备与热电性能深入研究具有重要指导意义。 展开更多
关键词 zintl Mg_(3)X_(2) 晶体生长 热电性能 综述
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Zintl结构化学在热电材料研究中的应用
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作者 操齐高 马光 +2 位作者 郑晶 贾志华 姜婷 《电子元件与材料》 CAS CSCD 北大核心 2011年第7期81-84,共4页
Zintl相化合物满足"电子晶体-声子玻璃"特征,能够通过化学掺杂和结构修饰来提高其热电性能,是理想的热电材料研究对象。阐明了热电材料性能优化的Zintl结构化学原理,介绍了Zintl结构化学在高性能热电材料研究中的应用,指出利... Zintl相化合物满足"电子晶体-声子玻璃"特征,能够通过化学掺杂和结构修饰来提高其热电性能,是理想的热电材料研究对象。阐明了热电材料性能优化的Zintl结构化学原理,介绍了Zintl结构化学在高性能热电材料研究中的应用,指出利用Zintl结构化学原理寻找高性能热电材料是今后热电材料研究的重要方向。 展开更多
关键词 zintl结构化学 热电材料 综述
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盐湖丰产元素与Zintl化合物(续完)
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作者 贾永忠 景燕 +3 位作者 马军 岳都元 Claude Belin Monique Tillard 《盐湖研究》 CSCD 2011年第2期63-72,共10页
Zintl化合物是以Edward Zintl命名的化合物,是一类由电正性的碱金属或碱土金属与电负性的13族或14族元素形成的特殊金属间化合物。其价键模式可以是离子键、金属键和共价键共存,其中的准金属可以共价键的形式形成各种形式的离子簇,因而... Zintl化合物是以Edward Zintl命名的化合物,是一类由电正性的碱金属或碱土金属与电负性的13族或14族元素形成的特殊金属间化合物。其价键模式可以是离子键、金属键和共价键共存,其中的准金属可以共价键的形式形成各种形式的离子簇,因而其结构复杂多样。这类化合物的部分阴离子簇不仅具有稳定的笼状、层状和链状结构,并且具有特殊的光、电、磁等性能,使得在半导体、催化、电极材料等方面都有应用的前景和发展潜力。介绍了几个特殊Zintl化合物体系,盐湖丰产元素在Zintl化合物中的作用,指出了含有盐湖丰产元素的Zintl化合物的应用前景和方向。 展开更多
关键词 盐湖 丰产元素 zintl化合物
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盐湖丰产元素与Zintl化合物(续一)
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作者 贾永忠 景燕 +3 位作者 马军 岳都元 Claude Belin Monique Tillard 《盐湖研究》 CSCD 2011年第1期66-72,共7页
Zintl化合物是以Edward Zintl命名的化合物,是一类由电正性的碱金属或碱土金属与电负性的13族或14族元素形成的特殊金属间化合物。其价键模式可以是离子键、金属键和共价键共存,其中的准金属可以共价键的形式形成各种形式的离子簇,因而... Zintl化合物是以Edward Zintl命名的化合物,是一类由电正性的碱金属或碱土金属与电负性的13族或14族元素形成的特殊金属间化合物。其价键模式可以是离子键、金属键和共价键共存,其中的准金属可以共价键的形式形成各种形式的离子簇,因而其结构复杂多样。这类化合物的部分阴离子簇不仅具有稳定的笼状、层状和链状结构,并且具有特殊的光、电、磁等性能,使得在半导体、催化、电极材料等方面都有应用的前景和发展潜力。介绍了几个特殊Zintl化合物体系,盐湖丰产元素在Zintl化合物中的作用,指出了含有盐湖丰产元素的Zintl化合物的应用前景和方向。 展开更多
关键词 盐湖 丰产元素 zintl化合物
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盐湖丰产元素与Zintl化合物
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作者 贾永忠 景燕 +3 位作者 马军 岳都元 Claude Belin Monique Tillard 《盐湖研究》 CSCD 2010年第4期62-72,共11页
Zintl化合物是以Edward Zintl命名的化合物,是一类由电正性的碱金属或碱土金属与电负性的13族或14族元素形成的特殊金属间化合物。其价键模式可以是离子键、金属键和共价键共存,其中的准金属可以共价键形成各种形式的离子簇,因而其结构... Zintl化合物是以Edward Zintl命名的化合物,是一类由电正性的碱金属或碱土金属与电负性的13族或14族元素形成的特殊金属间化合物。其价键模式可以是离子键、金属键和共价键共存,其中的准金属可以共价键形成各种形式的离子簇,因而其结构复杂多样。这类化合物的部分阴离子簇不仅具有稳定的笼状、层状和链状结构,并且具有特殊的光、电、磁等性能,使得在半导体、催化、电极材料等方面都有应用的前景和发展潜力。介绍了几个特殊Zintl化合物体系,盐湖丰产元素在Zintl化合物中的作用,指出了含有盐湖丰产元素的Zintl化合物的应用前景和方向。 展开更多
关键词 盐湖 丰产元素 zintl化合物
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Zintl离子化学——一个新兴的领域
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作者 汪信 陆路德 《化工时刊》 CAS 1991年第1期26-28,共3页
一、引言大约六十年前,Zintl等采用电化学方法研究了钠与过渡后元素合金在液氨中的性质,证明在液氨中能形成裸露的簇状化合物,如Sn<sub>9</sub><sup>4-</sup>,Pb<sub>9</sub><sup>4-</sup... 一、引言大约六十年前,Zintl等采用电化学方法研究了钠与过渡后元素合金在液氨中的性质,证明在液氨中能形成裸露的簇状化合物,如Sn<sub>9</sub><sup>4-</sup>,Pb<sub>9</sub><sup>4-</sup>,Bi<sub>5</sub><sup>3-</sup>,Te<sub>4</sub><sup>2-</sup>等等。后来这类合金被称为Zintl盐,Sn<sub>9</sub><sup>4-</sup>等则被称为Zintl离子,由于合成技术和研究手段的限制,这一领域几乎停滞了四十年,直到七十年代,因合成技术的突破和现代谱学方法的进步,Zintl离子化学又得以复兴而成为一个新兴的研究领域。 展开更多
关键词 离子化学 zintl 电化学
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Zintl相材料热电性能的研究及其最新进展 被引量:1
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作者 杨艳 邢玉梅 +3 位作者 曾志刚 张春 杨鹏辉 胡志宇 《材料导报(纳米与新材料专辑)》 EI 2010年第2期317-320,共4页
Zintl相热电材料符合"电子晶体-声子玻璃(Electron crystal-phononglass,简称PGEC)"的概念,其中阴离子区域充当"电子晶体",阳离子区域充当"声子玻璃",分别控制材料的电导和热导特性,可实现通过多途径提... Zintl相热电材料符合"电子晶体-声子玻璃(Electron crystal-phononglass,简称PGEC)"的概念,其中阴离子区域充当"电子晶体",阳离子区域充当"声子玻璃",分别控制材料的电导和热导特性,可实现通过多途径提高其热电性能,是非常具有开发前景的热电材料。详细总结了近年来发现的几种性能突出的Zintl相热电材料,探索了提高其热电性能的途径,最后展望了Zintl相热电材料的发展及应用前景。 展开更多
关键词 zintl 热电材料 热导率 电导率 热电优值
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Zintl相化合物α-BaZn_2P_2的合成、结构和性能(英文)
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作者 白明成 潘明艳 +2 位作者 汪琳 齐红基 王虎 《无机化学学报》 SCIE CAS CSCD 北大核心 2018年第2期277-282,共6页
通过Sn助熔剂法在高温下合成一种Zintl相化合物α-BaZn_2P_2,通过X射线单晶衍射确定其晶体结构与α-BaCu_2S_2同构,属于Pnma空间群。α-Ba Zn2P2的晶格参数为:a=0.976 78(5)nm,b=0.413 34(2)nm,c=1.060 55(5)nm。与高温相β-BaZn_2P_2... 通过Sn助熔剂法在高温下合成一种Zintl相化合物α-BaZn_2P_2,通过X射线单晶衍射确定其晶体结构与α-BaCu_2S_2同构,属于Pnma空间群。α-Ba Zn2P2的晶格参数为:a=0.976 78(5)nm,b=0.413 34(2)nm,c=1.060 55(5)nm。与高温相β-BaZn_2P_2的层状结构不同,低温相α-Ba Zn2P2具有三维网格结构。其中Zn P4四面体通过共边和共顶2种方式连接形成阴离子框架,Ba2+作为阳离子填隙其中。基于密度泛函理论计算了该化合物的能带结构和态密度,结果表明该化合物是窄带隙半导体(Eg=0.4 e V)。另外,DSC和变温XRD结果表明高温下α-BaZn_2P_2分解为Ba4P5,Zn P4等二元相。 展开更多
关键词 zintl相化合物 磷族化合物 晶体结构 电子结构
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Synthesis,Structure and Bonding Feature of New Metallic Zintl Phases RE_3Cu_3Sb_4(RE= Nd ,Sm ,Tb , Dy , Ho) 被引量:1
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作者 赵景泰 宋明虎 +3 位作者 周善康 黄种乐 宓锦校 毛少瑜 《Journal of Rare Earths》 SCIE EI CAS CSCD 1999年第3期228-230,共3页
RE 3Cu 3Sb 4(RE=Nd, Sm, Tb, Dy, Ho) was synthesized by arc melting method and their crystal structures were characterized by powder X ray method. The compounds crystallize in cubic system, Y 3Au 3Sb 4 type, sp... RE 3Cu 3Sb 4(RE=Nd, Sm, Tb, Dy, Ho) was synthesized by arc melting method and their crystal structures were characterized by powder X ray method. The compounds crystallize in cubic system, Y 3Au 3Sb 4 type, space group I43d (No.220), Pearson code cI40. The unit cell parameters are: Nd 3Cu 3Sb 4: a =0 96749(1) nm, V =0 90561(3) nm 3; Sm 3Cu 3Sb 4: a =0 96145(1) nm, V =0 88875(3) nm 3; Tb 3Cu 3Sb 4: a =0 95362(1) nm, V =0 86721(3) nm 3; Dy 3Cu 3Sb 4: a =0 95088(1) nm, V =0 85975(3) nm 3; Ho 3Cu 3Sb 4: a =0 9488(2) nm, V =0 8541(5) nm 3; Z =4. The structures are characterized by covalent bonded Cu Sb tetrahedra which form three dimensional networks by sharing corners. The rare earth atoms are distributed in the cages. The formula with the charge balance can be written as RE 3+ 3Cu 1+ 3Sb 3- 4 which are metallic Zintl phases having the weak metallic conductivity. The bonds have typical transitional features. General atomic coordination environment rules are followed. The unit cell parameters show the lanthanide contraction. 展开更多
关键词 Rare earths ANTIMONIDE Intermetallic compound Metallic zintl phase Crystal structure Transitional bonding
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二维共价键子结构Zintl相热电材料研究及进展 被引量:1
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作者 袁珉慧 乐文凯 +1 位作者 谈小建 帅晶 《物理学报》 SCIE EI CAS CSCD 北大核心 2021年第20期272-287,共16页
热电材料可以实现热能和电能间的直接相互转换,在半导体制冷和热能回收方面有着重要应用.Zintl相热电材料由电负性差异较大的阴阳离子组成,其输运特征符合"声子玻璃,电子晶体"的概念,因此受到了广泛的研究,特别是具有二维共... 热电材料可以实现热能和电能间的直接相互转换,在半导体制冷和热能回收方面有着重要应用.Zintl相热电材料由电负性差异较大的阴阳离子组成,其输运特征符合"声子玻璃,电子晶体"的概念,因此受到了广泛的研究,特别是具有二维共价键子结构Zintl相热电材料凭借优异的电性能更是被寄予厚望.本文综述了具有二维共价键子结构的典型Zintl相热电材料,梳理了研究最广且性能突出的CaAl_(2)Si_(2)结构1-2-2型、原胞内原子较多本征低热导率的9–4+x–9型、具有天然空位而本征热导率极低的2-1-2型、以及电性能相对较好的ZrBeSi结构1-1-1型Zintl相的研究进展;其中还特别总结了性能优异的Mg_(3)Sb_(2)基n型Zintl材料的研究发展.本文概括总结了每种体系近年来的研究进展及性能调控方法,讨论了进一步优化其热电性能的可能策略,并对其未来发展进行了展望. 展开更多
关键词 热电材料 zintl 二维共价键子结构
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Optoelectronic and thermoelectric properties of Zintl YLi_(3)A_(2)(A = Sb,Bi) compounds through modified Becke-Johnson potential 被引量:1
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作者 T Seddik G Ugur +6 位作者 R Khenata S Ugur F Soyalp G Murtaza D P Rai A Bouhemadou S Bin Omran 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第10期428-435,共8页
In the present work,we investigate the structural,optoelectronic and thermoelectric properties of the YLi3X2(X = Sb,Bi) compounds using the full potential augmented plane wave plus local orbital(FP-APW+lo) method.The ... In the present work,we investigate the structural,optoelectronic and thermoelectric properties of the YLi3X2(X = Sb,Bi) compounds using the full potential augmented plane wave plus local orbital(FP-APW+lo) method.The exchangecorrelation potential is treated with the generalized gradient approximation/local density approximation(GGA/LDA) and with the modified Becke-Johnson potential(TB-mBJ) in order to improve the electronic band structure calculations.In addition,the estimated ground state properties such as the lattice constants,external parameters,and bulk moduli agree well with the available experimental data.Our band structure calculations with GGA and LDA predict that both compounds have semimetallic behaviors.However,the band structure calculations with the GGA/TB-mBJ approximation indicate that the ground state of the YLi3Sb2compound is semiconducting and has an estimated indirect band gap(Γ-L) of about 0.036 eV while the ground state of YLi3Bi2compound is semimetallic.Conversely the LDA/TB-mBJ calculations indicate that both compounds exhibit semiconducting characters and have an indirect band gap(Γ-L) of about 0.15 eV and 0.081 eV for YLi3Sb and YLi3Bi2respectively.Additionally,the optical properties reveal strong responses of the herein materials in the energy range between the IR and extreme UV regions.Thermoelectric properties such as thermal conductivity,electrical conductivity,Seebeck coefficient,and thermo power factors are also calculated. 展开更多
关键词 zintl compounds TB-mBJ electronic band-structure optical properties thermoelectric properties
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The effect of replacing pnictogen elements on the physical properties of SrMg_2X_2(X=N,P,As,Sb,Bi) Zintl compounds
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作者 G Murtaza Abdul Ahad Khan +3 位作者 M Yaseen A Laref Naeem Ullah Inayat ur Rahman 《Chinese Physics B》 SCIE EI CAS CSCD 2018年第4期369-375,共7页
The effect of replacing the anion from N to Bi down the group in the periodic table is investigated on SrMg2X2(X = N,P,As,Sb,Bi).A full potential linearized augmented plane wave plus local orbitals method is used al... The effect of replacing the anion from N to Bi down the group in the periodic table is investigated on SrMg2X2(X = N,P,As,Sb,Bi).A full potential linearized augmented plane wave plus local orbitals method is used along with different exchange–correlation potentials to obtain the lattice constants,phonons,electronic,and optical properties of the Sr Mg2X2(X = N,P,As,Sb,Bi) Zintl compounds.A good agreement is achieved and our calculations are validated by previous experimental and theoretical data.All compounds have shown stable dynamical behavior with gamma centered longitudinal response having no imaginary frequencies.Electronic band structures reveal the semiconducting nature of the compounds.The Pnictogen(X)-p state contributed mainly in the valence band and the Sr-d state forms the conduction of the compounds.Relative charge transfer and low overlapping of the atomic densities indicates the preferable ionic bonding character of these materials.In the optical properties,real and imaginary parts of dielectric function,complex refractive index,birefringence,reflectivity,and optical conductivity are calculated.These compounds can be utilized in the optical and optoelectronic devices. 展开更多
关键词 zintl compounds band structure optical response
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Electronic and thermoelectric properties of YbMg_(2)X_(2)(X=P,As,Sb,Bi)zintl compounds by first-principles method 被引量:3
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作者 Sajid Khan Dil Faraz Khan +5 位作者 R.Neffati Tariq Usman Muhammad Waqar Ahsraf Shamim Khan Saeed Ullah Jan G.Murtaza 《Journal of Rare Earths》 SCIE EI CAS CSCD 2024年第1期147-154,I0006,共9页
In this work the structural,electronic and thermoelectric properties of YbMg_(2)X_(2)(X=P,As,Sb,Bi)zintl compounds were investigated comprehensively using first principles study.The electronic properties were studied ... In this work the structural,electronic and thermoelectric properties of YbMg_(2)X_(2)(X=P,As,Sb,Bi)zintl compounds were investigated comprehensively using first principles study.The electronic properties were studied using PBE GGA,TB-mBJ and hybrid(YS-PBE0)potentials.All the structural parameters of optimized structures are in harmonious agreement to the available data.The band structure study illustrates that the titled materials manifest metallic and semi metallic nature using PBE and TB-mBJ potentials while they show wide band gap semiconducting behavior by following hybrid(YS-PBE0)potential.Total density of states(TDOS)and partial density of states(PDOS)were also calculated to glimpse the contribution of orbitals of atoms in the formation of bands.Transport properties were studied by using BoltzTraP2 code employed to WIEN2k.We get enormous values of Seebeck coefficient(S),power factor(PF)and thermoelectric figure of merit(ZT)for all the samples YbMg_(2)X_(2)(X=P,As,Sb,Bi),Moreover,the overwhelming transport properties for the titled compounds indicate the optimum level of carriers’concentration which pinpoints these materials to be better thermoelectrics in the 1-2-2 zintl family. 展开更多
关键词 zintl compounds Hybrid functional Band structure THERMOELECTRICS Rare earths
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Metal-metal bonds in Zintl clusters:Synthesis,structure and bonding in[Fe_(2)Sn_(4)Bi_(8)]^(3-)and[Cr_(2)Sb_(12)]^(3-)
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作者 Ya-Nan Yang Zi-Sheng Li +5 位作者 Sourav Mondal Lei Qiao Cui-Cui Wang Wen-Juan Tian Zhong-Ming Sun John E.McGrady 《Chinese Chemical Letters》 SCIE CAS CSCD 2024年第8期558-566,共9页
We report here the synthesis and characterization of two new members of the M2 E 12 family of endohe-dral Zintl clusters,[Fe_(2)Sn_(4)Bi_(8)]^(3-)and[Cr_(2)Sb_(12)]^(3-),both of which contain open-shell metal dimers e... We report here the synthesis and characterization of two new members of the M2 E 12 family of endohe-dral Zintl clusters,[Fe_(2)Sn_(4)Bi_(8)]^(3-)and[Cr_(2)Sb_(12)]^(3-),both of which contain open-shell metal dimers encap-sulated inside a triple-decker cluster of main-group atoms.The 75-electron[Fe_(2)Sn_(4)Bi_(8)]^(3-)cluster has a D4h-symmetric structure,while[Cr_(2)Sb_(12)]^(3-),despite having the same 75-electron count,is strongly dis-torted to a geometry that resembles a CrSb_(8)crown capped by a CrSb_(4)unit.The structural differences between the two are driven by the increasing availability of 3d electron density in the earlier transi-tion metal,which leads,ultimately,to different electronic configurations in the two clusters.The trends precisely mirror those observed in the ME_(10)and ME_(12)families containing a single transition metal ion. 展开更多
关键词 zintl anions Endohedral clusters Metal-metal bond Second-order Jahn-Teller effect DFT calculation
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Electrical property enhancement and lattice thermal conductivity reduction of n-type Mg_(3)Sb_(1.5)Bi_(0.5)-based Zintl compound by In&Se co-doping 被引量:3
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作者 Tong Liu Jiansong Liao +8 位作者 Hang Liu Runyu Wang Guocai Yuan Jing Jiang Yi Niu Xiaobo Lei Lihong Huang Chao Wang Qinyong Zhang 《Journal of Materiomics》 SCIE CSCD 2023年第3期431-437,共7页
Mg_(3)Sb_(1.5)Bi_(0.5)-based Zintl compounds have attracted extensive attention as potential thermoelectric materials due to their earth-abundant elements.However,pure and intrinsic Mg_(3)Sb_(1.5)Bi_(0.5)manifests a p... Mg_(3)Sb_(1.5)Bi_(0.5)-based Zintl compounds have attracted extensive attention as potential thermoelectric materials due to their earth-abundant elements.However,pure and intrinsic Mg_(3)Sb_(1.5)Bi_(0.5)manifests a poor thermoelectric performance because of its low electrical conductivity of about 3×10^(2)S/m at room temperature.In this work,In and Se co-doping was carried out to optimize the thermoelectric perfor-mance of n-type Mg_(3)Sb_(1.5)Bi_(0.5)-based material.The experimental results revealed that the carrier con-centration and mobility of Mg_(3)Sb_(1.5)Bi_(0.5)significantly increased after In and Se co-doping,leading to an improvement of power factor.Simultaneously,lattice thermal conductivity was significantly reduced due to the large mass difference between In and Mg.A maximum zT of 1.64 at 723 K was obtained for the Mg_(3.17)In_(0.03)Sb_(1.5)Bi_(0.49)Se_(0.01)sample.And an average zT value of about 1.1 between 300 and 723 K was achieved,which insures its possible application at medium temperature range as a non-toxic and low-cost TE material. 展开更多
关键词 zintl compound Thermoelectric property n-type Mg_(3)Sb_(1.5)Bi_(0.5) In&Se co-doping
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[Cd(Sn_(9))_(2)]^(6-) and[Cd(Ni@Sn_(9))_(2)]^(6-):Reactivity and coordination chemistry of empty and Ni-centered[Sn_(9)]^(4-) Zintl ions
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作者 Ya-Nan Yang Lei Qiao Zhong-Ming Sun 《Chinese Chemical Letters》 SCIE CAS CSCD 2023年第1期523-526,共4页
To investigate the reactivity of homoatomic clusters[E_(9)]^(4-)(E=Si-Pb)and intermetalloid clusters[M@E_(9)]^(q-),the reactions of the Zintl anions[Sn_(9)]^(4-) and[Ni@Sn_(9)]^(4-) with the CdMes_(2)(Mes=Mesitylene)i... To investigate the reactivity of homoatomic clusters[E_(9)]^(4-)(E=Si-Pb)and intermetalloid clusters[M@E_(9)]^(q-),the reactions of the Zintl anions[Sn_(9)]^(4-) and[Ni@Sn_(9)]^(4-) with the CdMes_(2)(Mes=Mesitylene)in the presence of 2.2.2-crypt were carried out.Two new compounds[K(2.2.2-crypt)]_(6)[(Sn_(9))Cd(Sn_(9))]·en(1)and[K(2.2.2-crypt)]_(6)[(Ni@Sn_(9))Cd(Ni@Sn_(9))]·en(2)were afforded.Both 1 and 2 were characterized by single-crystal X-ray diffraction,energy dispersive X-ray(EDX),and electrospray ionization mass spectrometry(ESI-MS),and can be viewed as two[Sn_(9)]^(4-)or[Ni@Sn_(9)]^(4-)subunits bridged by Cd ion in an η^(3):η^(3) coordination mode.Quantum chemical calculations reveal the relationships between the geometries and electronic structures of clusters 2a,[Ni_(3)Ge_(18)]^(4-)and[Cu_(4)@Sn_(18)]^(4-).Further electron localization technique(Ad NDP method)was performed to explain chemical bonding patterns of 1a. 展开更多
关键词 Heterometallic complexes Sn cluster zintl anions DFT calculation Electronic structure
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Ge掺杂Zintl相化合物YbZn_2Sb_(2-x)Ge_x的制备及其热电性能
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作者 操齐高 王轶 +3 位作者 贾志华 马光 郑晶 李进 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2014年第3期747-751,共5页
通过熔融反应法结合放电等离子体烧结技术,制备了Ge掺杂的系列样品YbZn2Sb2-xGex(0.0≤x≤0.4)。研究了从300~700K温度区间的热电输运性能以及低温热容量。结果表明,样品的电导率、Seebeck系数、热导率、zr值都跟Ge的含量有关。G... 通过熔融反应法结合放电等离子体烧结技术,制备了Ge掺杂的系列样品YbZn2Sb2-xGex(0.0≤x≤0.4)。研究了从300~700K温度区间的热电输运性能以及低温热容量。结果表明,样品的电导率、Seebeck系数、热导率、zr值都跟Ge的含量有关。Ge部分取代Sb,提高了体系的空穴载流子浓度,从而降低了电阻率,并且适量的Ge取代能够有效地提高功率因子。Ge的引入,使得样品晶格中原子质量波动增大,加强了对声子的散射,其中x=0.1时,样品YbZn2Sb1.9Ge0.1的热电优值在700K时达到0.45,比YbZn2Sb2的ZT值高了55%。并且,由ZT—T曲线的趋势判断,其在温度高于700K时可能具有更高的ZT值。 展开更多
关键词 zintl YbZn2Sb2-xGex 制备 热电材料 热电性能中图法
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新合成Zintl相化合物Ba3Sn3Sb4的基本物理性质和热电特性
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作者 杨癸 耿会娟 +2 位作者 袁地 张静 马东伟 《中国科学:物理学、力学、天文学》 CSCD 北大核心 2020年第7期77-85,共9页
采用第一性原理和玻尔兹曼理论相结合的方法对最近合成的Zintl相化合物Ba3Sn3Sb4的晶体结构、电子结构、弹性性质和热电特性进行了研究.本文确定了合成Ba3Sn3Sb4时对各元素化学势的要求,计算的弹性常数和力学稳定判定标准表明Ba3Sn3Sb4... 采用第一性原理和玻尔兹曼理论相结合的方法对最近合成的Zintl相化合物Ba3Sn3Sb4的晶体结构、电子结构、弹性性质和热电特性进行了研究.本文确定了合成Ba3Sn3Sb4时对各元素化学势的要求,计算的弹性常数和力学稳定判定标准表明Ba3Sn3Sb4具有力学稳定性.差分电荷密度显示Ba与Sn-Sb组成的网格[Sn3Sb4]^6-之间成离子键,网格内Sn-Sb之间为共价键,两键共存说明Ba3Sn3Sb4是典型的Zintl相化合物.能带结构的计算表明Ba3Sn3Sb4是带隙约为0.29 eV的间接带隙半导体,导带区域的多能谷特征有利于材料的热电特性.在电子结构的基础上,本文采用Bolzmann理论计算了Ba3Sn3Sb4的热电特性.由于纯相Ba3Sn3Sb4是n型半导体,p型掺杂的塞贝克系数在T=500和700 K时随载流子浓度增加从负值变为正值,而对应的ZT值从正值减小到零,再从零变到最大值0.09.n型掺杂Ba3Sn3Sb4时,由于热激发效应随温度增加而增强,少子对塞贝克系数的贡献增大,在T>500 K时展现出双极化效应;当载流子浓度为1.14×10^20cm^-3,温度为700 K时,最大ZT值为0.26,几乎是p型掺杂时的3倍. 展开更多
关键词 化学势 zintl相化合物 热电特性
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Zintl phase compounds AM_2Sb_2(A=Ca,Sr,Ba,Eu,Yb;M=Zn,Cd) and their substitution variants:a class of potential thermoelectric materials 被引量:9
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作者 郭凯 操齐高 赵景泰 《Journal of Rare Earths》 SCIE EI CAS CSCD 2013年第11期1029-1038,共10页
Zintl phase compounds AM2Sb2 (A=Ca, Sr, Ba, Eu, Yb;M=Zn, Cd) is a new class of promising thermoelectrics owing to their intrinsic features in electronic and crystal structure, such as a small or even disappeared ban... Zintl phase compounds AM2Sb2 (A=Ca, Sr, Ba, Eu, Yb;M=Zn, Cd) is a new class of promising thermoelectrics owing to their intrinsic features in electronic and crystal structure, such as a small or even disappeared band-gap, large density-of-states at the Fermi level, covalently bonded network of M-Sb, as well as the layered stacking by cations A2+and anionic slabs (M2Sb2)2-. In addi-tion, the rich solid-state chemistry of Zintl phase allows structural modification and chemical substitution to adjust the fundamental transport parameters (carrier concentration, mobility, effective mass, electronic and lattice thermal conductivity) for improving the thermoelectric performance. In the present review, the recent advances in synthesis and thermoelectric characterization of title com-pounds AM2Sb2 were presented, and the effects of alloying or substitution for sites A, M and Sb on the electrical and thermal trans-port were emphasized. The structural disorder yielded by the incorporation of multiple ions significantly increased the thermoelectric figure of merit mainly resulted from the reduction of thermal conductivity without disrupting the carrier transport region in substance. Therefore, alloying or substitution has been a feasible and common route utilized to enhance thermoelectric properties in these Zintl phase compounds, especially for YbZn0.4Cd1.6Sb2 (ZT700 K=1.26), EuZn1.8Cd0.2Sb2 (ZT650 K=1.06), and YbCd1.85Mn0.15Sb2 (ZT650 K=1.14). 展开更多
关键词 zintl phase compounds THERMOELECTRIC electronic structure chemical substitution rare earths
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Effect of manganese doping on the thermoelectric properties of Zintl phase EuCd_2Sb_2 被引量:2
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作者 闵武茂 郭凯 +1 位作者 王继伟 赵景泰 《Journal of Rare Earths》 SCIE EI CAS CSCD 2015年第10期1093-1097,共5页
Polycrystalline samples of Zintl phase EuCd2-xMnxSb2 (0.05≤x≤0.6) with the CaAl2Si2-type crystal structure (space group P3ml) were synthesized via a solid-state reaction followed by suitable cooling, annealing a... Polycrystalline samples of Zintl phase EuCd2-xMnxSb2 (0.05≤x≤0.6) with the CaAl2Si2-type crystal structure (space group P3ml) were synthesized via a solid-state reaction followed by suitable cooling, annealing and spark plasma sintering (SPS) processes. In samples with x=0.0, 0.1, 0.2, 0.4 and 0.6, the electrical conductivity, Seebeck coefficient, and thermal conductivity were performed as a function of temperature from 300 to 650 K. It was found that chemical substitution of Mn failed to optimize the thermoelectric properties of p-type conductive EuCd2Sb2. It was because that the Mn substitution induced the minority carriers (electrons), resulting in decreasing the electrical conductivity drastically despite the fact that it enlarged the Seebeck coefficient and reduced the thermal conductivity synchronously. 展开更多
关键词 zintl phase compounds chemical substitution solid-state reaction thermoelectric properties rare earths
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