共查询到18条相似文献,搜索用时 187 毫秒
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根据Co-B非晶态结构的短程有序、Co和B之间是较强的化学作用以及化学键理论,设计了ComB2 (m=1~4) 原子簇模型,用DFT方法对其进行高水平的量子化学计算,结果表明,模型体系ComB2 (m=1~4)中, B原子供给Co原子电子,这与非晶态合金的实验结果一致,同时存在B-B直接相连,为了比较,也选择了ConB (n=1~4)模型,计算结果与实验不符,说明ComB2(m=1~4)原子簇模型更能反映非晶态的结构特点. 相似文献
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Ni-B非晶态合金局域结构和电荷转移性质的理论研究 总被引:3,自引:1,他引:2
根据非晶态合金结构的短程有序、Ni和B间存在较强的化学作用、结构中存在B-B键直接相连的实验事实,选择Ni~mB~2(m=1,2,4)原子簇作为非晶态局域结构的计算模型。考虑原子簇间的相互作用,又对[Ni~4B~2]~n(n=1,2,5,7)簇团进行了系统计算。结果表明在所选Ni-Br的簇模型中,都是B原子提供电荷给Ni原子,这些均与非晶态合金实验结果和一些理论计算结果相符。簇团的计算结果还表明,小原子簇Ni~4B~2内原子间存在较强的化学键作用,而簇间的相互作用相对较弱,很容易造成对称性破缺而导致产生长程无序,因此Ni-B非晶态可以被看成是由大量i上原子簇无序堆砌成的,这一点也同实验事实相吻合。计算结果也表明我们前面工作中所取的和最常见的Ni-B非晶态合金Ni~6~4B~3~6有相似组成的Ni~4B~2原子簇模型能在一定程度上反映Ni-B非晶态合金的局域结构特征。 相似文献
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类金属P对原子簇Ni_nB_2(n=1~6)性质影响的理论研究 总被引:2,自引:0,他引:2
依据实验事实设计组成可调的系列原子簇 NinBP、NinB2 (n = 1~6)模型, 利用密度泛函(DFT)方法在 B3LYP/Lanl2dz 水平上对所设计构型进行优化,得到各原子簇的最稳定构型,进而研究类金属元素 P 对非晶态合金 Ni-B 性质的影响。结果表明:三元非晶态合金 Ni–B–P 的稳定性强于二元非晶态合金 Ni-B;类金属 P 起到调节金属 Ni 原子 3d 轨道布居数的作用。这些均与实验结果一致,说明模型能反映合金的性质。 相似文献
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由摩尔比分别为1:2和1:8的NiCl2·6H2O和Na2B4O7·10H2O作为反应物,合成两种非晶态镍硼酸盐,同时通过水热法合成β-Ni(OH)2.化学分析和热重-微商热重法(TG-DTG)分析结果确定两种非晶态镍硼酸盐的分子组成分别为NiO·0.8B2O3·4.5H2O和NiO·B2O3·3H2O.激光拉曼(Raman)实验结果表明镍硼酸盐样品中主要存在的硼氧阴离子为B3O3(OH)52-和B2O(OH)62-.同步辐射扩展X射线吸收精细结构(EXAFS)方法对样品进行结构解析,通过数据拟合给出样品中Ni原子周围近邻配位原子种类、配位数以及原子间距离.用不同晶体结构作为标准对两种非晶态镍硼酸盐进行拟合的结果表明,样品中Ni原子周围局域结构与Ni3B2O6晶体(ICSD No.31387)中的吻合较好.Ni原子周围配位原子为O、B和Ni,对于NiO·0.8B2O3·4.5H2O,配位数分别为5.7、3.8和3.8,配位距离分别为0.208、0.263和0.311 nm;对于NiO·B2O3·3H2O,配位数分别为6.0、4.0和4.0,配位距离分别为0.207、0.262和0.310 nm. 相似文献
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18-冠-6与Na2[M(mnt)2](M=Cu, Ni)配合物的合成与结构 总被引:6,自引:0,他引:6
研究了18-冠-6分别与Na2[M(mnt)2][M=Cu,Ni;mnt=丁二腈烯二硫醇阴离子,C2S2(CN)^2^-~2]的反应,得到的配合物{[Na(18-C-6)][Na(18-C-6)(H2O)]}[Cu(mnt)2](1),[Na(18-C-6)(H2O)]2[Ni(mnt)2].(18-C-6)(2)通过元素分析、红外光谱、X射线单晶衍射进行了表征。两个配合物均为三斜晶系,空间群P1。1的晶体学结构数据:a=1.22697(19)nm,b=1.22780(19)nm,c=1.5665(3)nm,α=95.083(3)°,β=101.534(3)°,Υ=91.007(3)°,V=2.3016(6)nm^3,Z=2,Dcalcd=1.350g/cm^3,F(000)=976,R1=0.0726,wR2=0.1843.2的晶体学结构数据:a=1.11620(17)nm,b=1.22054(18)nm,c=1.27939(18)nm,α=111.647(2)°,β=29.792(3)°,Υ=103.201(2)°,V=2.5461(4)nm^3,Z=1,Dcalcd=1.304g/cm^3,F(000)=642,R1=0.0459,wR2=0.1003.1中的[Cu(mnt)2]^2^-通过mnt的氮原子与[Na(18-C-6)]^+中的钠原子成键,形成了一维链状结构;[Na(18-C-6)(H2O)]^+只起平衡电荷的作用。2中的[Ni(mnt)2]^2^-也通过配体的mnt氮原子与两个[Na(18-C-6)(H2O)]^+中的钠原子成键,形成稳定的中性配合物。 相似文献
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作为系统研究大环硫氮杂冠醚结构的一部分, 合成了1,4,10,13-四硫-7,16-二氮杂环十八冠醚的硝酸盐[H2(C12H26N2S4)(NO3)2]1和镍配合物[Ni(C12H26N2S4)Cl2·4H2O]2,并测定和计算了它们的晶体结构和电子结构。化合物1属单斜晶系, 空间群P21/c,a=7.936(5), b=8.866(7), c=14.756(5)埃, β=95.33(4)°, V=1033.7埃^3, Z=2,Do=1.45g·cm^-^3, μ=43.7cm^-^1, F(000)=480, 最终偏离因子R=0.059, Rw=0.059。化合物2属三斜晶系, 空间群p1, a=6.941(4), b=9.862(3), c=16.507(3)埃,α=98.78(2), β=95.52(3), γ=93.48(3)°, V=1108.3埃^3, Z=2, Dc=1.58g·cm^-^3,μ=14.9cm^-^1, F=(000)=556; 最终偏离因子R=0.060, Rw=0.065。晶体结构测定结果表明: 化合物1与自由配体L相比较, N原子的构型变化最大, 在氯化镍配合物2中, 四硫二氮大环发生严重扭曲, 其中四个S和两个N原子在Ni原子周围形成八面体配位, Ni-N距离从2.109到2.140埃, Ni-S距离从2.370到2.435埃。同时, 量化计算结果说明, S、N原子与Ni^2^+本位时均为电子授体, 且S对Ni^2^+的授电子能力, 似略大于N原子。 相似文献
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作为系统研究大环硫氮杂冠醚结构的一部分, 合成了1,4,10,13-四硫-7,16-二氮杂环十八冠醚的硝酸盐[H2(C12H26N2S4)(NO3)2]1和镍配合物[Ni(C12H26N2S4)Cl2·4H2O]2,并测定和计算了它们的晶体结构和电子结构。化合物1属单斜晶系, 空间群P21/c,a=7.936(5), b=8.866(7), c=14.756(5)埃, β=95.33(4)°, V=1033.7埃^3, Z=2,Do=1.45g·cm^-^3, μ=43.7cm^-^1, F(000)=480, 最终偏离因子R=0.059, Rw=0.059。化合物2属三斜晶系, 空间群p1, a=6.941(4), b=9.862(3), c=16.507(3)埃,α=98.78(2), β=95.52(3), γ=93.48(3)°, V=1108.3埃^3, Z=2, Dc=1.58g·cm^-^3,μ=14.9cm^-^1, F=(000)=556; 最终偏离因子R=0.060, Rw=0.065。晶体结构测定结果表明: 化合物1与自由配体L相比较, N原子的构型变化最大, 在氯化镍配合物2中, 四硫二氮大环发生严重扭曲, 其中四个S和两个N原子在Ni原子周围形成八面体配位, Ni-N距离从2.109到2.140埃, Ni-S距离从2.370到2.435埃。同时, 量化计算结果说明, S、N原子与Ni^2^+本位时均为电子授体, 且S对Ni^2^+的授电子能力, 似略大于N原子。 相似文献
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Quantum Chemical Study on Geometry and Property of Cluster Ni_4P 总被引:1,自引:0,他引:1
1INTRODUCTION Amorphous alloys attractive to scientists have worked in the field of materials and catalysts since they have many excellent physical and chemical pro-perties,such as high magnetic susceptibility,high specific heat,high strength,ductile in compression,low coefficient of friction,high corrosion resistance,super plasticity within the range,ferromagnetism and super conductivity[1~5].Especially,amorphous alloys as catalytic materials have shown either hig-her activity or selectiv… 相似文献
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Ni-Co-B非晶态合金催化剂用于氯代硝基苯液相加氢制氯代苯胺 总被引:15,自引:0,他引:15
用化学还原法制备了 Ni-Co-B 非晶态合金催化剂,并采用透射电子显微镜、扫描电子显微镜、选区电子衍射、X射线衍射、X射线能谱和差热-热重分析等表征手段研究了催化剂的非晶性质和原子组成等. 将此催化剂用于邻氯硝基苯和 3,4-二氯硝基苯的液相催化加氢反应,结果表明,当Co/(Co+Ni)=0.5 (摩尔比)时, Ni-Co-B 催化剂具有较好的加氢性能和较高的抑制脱卤性能. 在不加脱卤抑制剂的情况下,两种氯代硝基苯的转化率均接近100%, 脱卤率分别为1.12%和0.42%, 优于使用 Ni-B 和 Co-B 非晶态合金催化剂时的结果. 还讨论了将Co引入到 Ni-B 非晶态合金催化剂时对其性能的影响. 相似文献
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FANG Zhi-Gang GUO Jing-Xue 《结构化学》2007,26(3):273-280
In the present paper,one hundred cluster models NinBP (n=1~6) have been designed and studied by density functional theory (DFT) to get an insight into the local structure,catalytic properties and sulfur resistibility of amorphous alloy Ni-B-P. The configurations in triplet state are found more stable than those in the singlet state. It is found that as the content of Ni in the clusters increases,the value of Fermi level in clusters fluctuated,which shows that the content of Ni can influence the Fermi level to a certain extent. Based on the Fermi level and DOS,we consider the activity of catalyst in hydrogenation reaction is the best in cluster Ni3BP. On the basis of the charge of clusters NinBP (n=1~6),we conclude the amorphous alloy Ni-B-P with high Ni content has better sulfur resistibility and the best hydrogenation activity,strong sulfur resistibility appears in clusters Ni3BP,and the amorphous alloy Ni60B20P20 with similar proportion is expected to prepare in the future. 相似文献
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(Nickel)(n)(benzene)(m) (-) cluster anions were studied by both mass spectrometry and anion photoelectron spectroscopy. Only Ni(n)(Bz)(m) (-) species for which n > or =m were observed in the mass spectra. No single-nickel Ni(1)(Bz)(m) (-) species were seen. Adiabatic electron affinities, vertical detachment energies, and second transition energies were determined for (n,m)=(2,1), (2,2), (3,1), and (3,2). For the most part, calculations on Ni(n)(Bz)(m) (-) species by B. K. Rao and P. Jena [J. Chem. Phys. 117, 5234 (2002)] were found to be consistent with our results. The synergy between their calculations and our experiment provided enhanced confidence in the theoretically implied magnetic moments of several nickel-benzene complexes. The magnetic moments of small nickel clusters were seen to be extremely sensitive to immediate molecular environmental effects. 相似文献
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Ni-Mo-B非晶态合金纳米颗粒的抗氧化性能研究 总被引:6,自引:0,他引:6
在水溶液体系中用化学还原法制备Ni-B和Ni-Mo-B非晶态合金纳米颗粒.SEM测试表明,样品的颗粒形貌呈球形或类球形,平均粒径约10nm.XPS分析结果表明,Ni-Mo-B非晶态合金中钼元素主要以氧化态形成于合金的表面,并导致合金表面合金化硼原子浓度显著增加,氧化态硼(B3+)的原子浓度显著减少,氧的原子浓度明显减少,合金化镍的原子浓度显著增加,氧化态镍(Ni3+)的原子浓度显著减少.因此,Ni-Mo-B合金的抗氧化性能显著高于Ni-B合金.XPS谱图分析还表明,在Ni-B和Ni-Mo-B非晶态合金中,存在Ni和B的合金化物Ni2B,其中B失去部分电子,而Ni则富余电子.Ni2B的氧化产生副产物Ni2O3和B2O3. 相似文献
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The use of 1,3,5-triaminocyclohexane (tach) as a capping ligand in generating metal-cyanide cage clusters with accessible cavities is demonstrated. The precursor complexes [(tach)M(CN)(3)] (M = Cr, Fe, Co) are synthesized by methods similar to those employed in preparing the analogous 1,4,7-triazacyclononane (tacn) complexes. Along with [(tach)Fe(CN)(3)](1)(-), the latter two species are found to adopt low-spin electron configurations. Assembly reactions between [(tach)M(CN)(3)] (M = Fe, Co) and [M'(H(2)O)(6)](2+) (M' = Ni, Co) in aqueous solution afford the clusters [(tach)(4)(H(2)O)(12)Ni(4)Co(4)(CN)(12)](8+), [(tach)(4)(H(2)O)(12)Co(8)(CN)(12)](8+), and [(tach)(4)(H(2)O)(12)Ni(4)Fe(4)(CN)(12)](8+), each possessing a cubic arrangement of eight metal ions linked through edge-spanning cyanide bridges. This geometry is stabilized by hydrogen-bonding interactions between tach and water ligands through an intervening solvate water molecule or bromide counteranion. The magnetic behavior of the Ni(4)Fe(4) cluster indicates weak ferromagnetic coupling (J = 5.5 cm(-)(1)) between the Ni(II) and Fe(III) centers, leading to an S = 6 ground state. Solutions containing [(tach)Fe(CN)(3)] and a large excess of [Ni(H(2)O)(6)](2+) instead yield a trigonal pyramidal [(tach)(H(2)O)(15)Ni(3)Fe(CN)(3)](6+) cluster, in which even weaker ferromagnetic coupling (J = 1.2 cm(-)(1)) gives rise to an S = (7)/(2) ground state. Paralleling reactions previously performed with [(Me(3)tacn)Cr(CN)(3)], [(tach)Cr(CN)(3)] reacts with [Ni(H(2)O)(6)](2+) in aqueous solution to produce [(tach)(8)Cr(8)Ni(6)(CN)(24)](12+), featuring a structure based on a cube of Cr(III) ions with each face centered by a square planar [Ni(CN)(4)](2)(-) unit. The metal-cyanide cage differs somewhat from that of the analogous Me(3)tacn-ligated cluster, however, in that it is distorted via compression along a body diagonal of the cube. Additionally, the compact tach capping ligands do not hinder access to the sizable interior cavity of the molecule, permitting host-guest chemistry. Mass spectrometry experiments indicate a 1:1 association of the intact cluster with tetrahydrofuran (THF) in aqueous solution, and a crystal structure shows the THF molecule to be suspended in the middle of the cluster cavity. Addition of THF to an aqueous solution containing [(tach)Co(CN)(3)] and [Cu(H(2)O)(6)](2+) templates the formation of a closely related cluster, [(tach)(8)(H(2)O)(6)Cu(6)Co(8)(CN)(24) superset THF](12+), in which paramagnetic Cu(II) ions with square pyramidal coordination are situated on the face-centering sites. Reactions intended to produce the cubic [(tach)(4)(H(2)O)(12)Co(8)(CN)(12)](8+) cluster frequently led to an isomeric two-dimensional framework, [(tach)(H(2)O)(3)Co(2)(CN)(3)](2+), exhibiting mer rather than fac stereochemistry at the [Co(H(2)O)(3)](2+) subunits. Attempts to assemble larger edge-bridged cubic clusters by reacting [(tach)Cr(CN)(3)] with [Ni(cyclam)](2+) (cyclam = 1,4,8,11-tetraazacyclotetradecane) complexes instead generated extended one- or two-dimensional solids. The magnetic properties of one of these solids, two-dimensional [(tach)(2)(cyclam)(3)Ni(3)Cr(2)(CN)(6)]I(2), suggest metamagnetic behavior, with ferromagnetic intralayer coupling and weak antiferromagnetic interactions between layers. 相似文献
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Brunet G Habib F Cook C Pathmalingam T Loiseau F Korobkov I Burchell TJ Beauchemin AM Murugesu M 《Chemical communications (Cambridge, England)》2012,48(9):1287-1289
A high-spin tridecanuclear Ni(II) cluster, [Ni(II)(13)(N(3))(18)(dpo)(4)(Hdpo)(2)(H(2)hpo)(4)(H(2)O)(MeOH)] [Ni(II)(13)(N(3))(18)(dpo)(4)(Hdpo)(2)(H(2)hpo)(4)(H(2)O)(2)] (1) (Hdpo = 1-(dimethylamino)propan-2-one oxime and H(2)hpo = 1-(hydroxyamino)propan-2-one oxime) with a purely azido-bridged core, is reported with dominant ferromagnetic coupling between Ni(II) ions. The latter molecule exhibits a unique planar core topology with the largest N(3)(-):Ni(II) ratio reported to date. 相似文献
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Zhang SH Li N Ge CM Feng C Ma LF 《Dalton transactions (Cambridge, England : 2003)》2011,40(12):3000-3007
Three polynuclear complexes, [NiNa(μ(1,1,1)-N(3))(μ-hmb)(2)(DMF)](2), (1), [Ni(4)(μ(3)-OMe)(4)(heb)(4)(MeOH)(1.05)(H(2)O)(2.95)], (2) and [Ni(III)(OH)(6)(hmb)(6)Ni(II)(6)]·(ClO(4))(3) (3) (Hhmb = 2-hydroxy-3-methoxy-benzaldehyde; Hheb = 2-hydroxy-3-ethoxy-benzaldehyde), were prepared by reaction of the appropriate ligand with nickel(II) perchloride hexahydrate under solvothermal conditions. All compounds were characterized by elemental analysis, IR spectroscopy and X-ray single-crystal diffraction. Compound 1 exhibits a centrosymmetric heterotetranuclear cluster which represents the first nickel complex to possess two connected face-sharing cubes structure {Ni(2)Na(2)N(2)O(4)}. Compound 2 has a tetranuclear Ni cluster with a cubane topology in which the Ni(II) and the oxygen atoms from the methanol ligands occupying alternate vertices of the cube. Compound 3 consisits of a mixed-valence [Ni(III)(OH)(6)(hmb)(6)Ni(II)(6)](3+) subunits and it represents the first nickel {Ni(II)(6)Ni(III)} complex to possess a planar hexagonal disc-like structure. The results show that the minor ligand modifications or solvent change have a key role in the structural control of the self-assembly process. Magnetic properties of 1-3 in the 300-2 K have been discussed. The {Ni(2)Na(2)} (1) and {Ni(4)} (2) core display dominant ferromagnetic interactions from the nature of the binding modes through μ(3)-N(3)(-) or μ(3)-OCH(3)(-), while {Ni(II)(6)Ni(III)} core (3) displays dominant anti-ferromagnetic interactions from the nature of the binding modes through μ(3)-OH(-). 相似文献