首页> 美国卫生研究院文献>Chemical Science >Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(ii)

【2h】

Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(ii)

机译：推导三角双锥体Ni（ii）中的磁各向异性极限

代理获取

本网站仅为用户提供外文OA文献查询和代理获取服务，本网站没有原文。下单后我们将采用程序或人工为您竭诚获取高质量的原文，但由于OA文献来源多样且变更频繁，仍可能出现获取不到、文献不完整或与标题不符等情况，如果获取不到我们将提供退款服务。请知悉。

页面导航

摘要
著录项
相似文献
相关主题

摘要

Monometallic complexes based on 3d transition metal ions in certain axial coordination environments can exhibit appreciably enhanced magnetic anisotropy, important for memory applications, due to stabilisation of an unquenched orbital moment. For high-spin trigonal bipyramidal Ni(ii), if competing structural distortions can be minimised, this may result in an axial anisotropy that is at least an order of magnitude stronger than found for orbitally non-degenerate octahedral complexes. Broadband, high-field EPR studies of [Ni(MDABCO)2Cl3]ClO4 (>1) confirm an unprecedented axial magnetic anisotropy, which pushes the limits of the familiar spin-only description. Crucially, compared to complexes with multidentate ligands that encapsulate the metal ion, we see only a very small degree of axial symmetry breaking. >1 displays field-induced slow magnetic relaxation, which is rare for monometallic Ni(ii) complexes due to efficient spin–lattice and quantum tunnelling relaxation pathways.

机译：在某些轴向配位环境中，基于3d过渡金属离子的单金属络合物会表现出明显增强的磁各向异性，这对记忆应用非常重要，这是由于未淬灭的轨道力矩稳定所致。对于高旋转的三角双锥体Ni（ii），如果可以使竞争性结构变形最小化，则其轴向各向异性至少比在轨道上非简并的八面体络合物要大至少一个数量级。 [Ni（MDABCO）2Cl3] ClO4（> 1 ）的宽带高场EPR研究证实了前所未有的轴向磁各向异性，这推动了人们熟悉的自旋描述的局限性。至关重要的是，与包封金属离子的具有多齿配体的配合物相比，我们发现轴向对称性的破坏程度很小。 > 1 显示场感应的慢磁弛豫，由于有效的自旋晶格和量子隧穿弛豫路径，单金属Ni（ii）络合物很少见。

著录项

期刊名称 Chemical Science
作者
Katie E. R. Marriott; Lakshmi Bhaskaran; Claire Wilson; Marisa Medarde; Stefan T. Ochsenbein; Stephen Hill; Mark Murrie;
展开▼
作者单位

展开▼
年(卷),期 2015(6),12
年度 2015
页码 6823–6828
总页数 6
原文格式 PDF
正文语种
中图分类生化遗传学 ; 生化药理学 ;
关键词

相似文献

外文文献
中文文献
专利

1. Synthesis, Characterization and Biological Activity of Sodium Barbitone-Group-VIII Metals (viz. Ni(II), Pd(II) and Pt(II)) Complexes [J] . Fatma S. M. Hassan, Wafaa S. Kuran, Asmaa A. Ibrahim, 无机非金属材料(英文) . 2020 ,第001期
2. Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(II) [J] . Marriott Katie E. R., Bhaskaran Lakshmi, Wilson Claire, Chemical science . 2015 ,第12期

机译：推动三角双锥体Ni（II）的磁各向异性极限
3. Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(II) [J] . Katie E. R. Marriott, Lakshmi Bhaskaran, Claire Wilson, Chemical science . 2015 ,第12期

机译：推动三角双锥Ni（II）的磁各向异性极限
4. Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(II) [J] . Katie E. R. Marriott, Lakshmi Bhaskaran, Claire Wilson, Chemical science . 2015 ,第12期

机译：推动三角双锥Ni（II）的磁各向异性极限
5. Pushing the limit of lithography for patterning two-dimensional lattices in III-V semiconductor quantum wells [C] . N.A. Franchina Vergel, C. Post, F. Vaurette, IEEE Electron Devices Technology and Manufacturing Conference . 2021

机译：推动III-V半导体量子阱中图案化二维格子的光刻限制
6. Magnetic properties and reactivity studies of families of trigonal bipyramidal cyanide clusters and their extended structures [D] . Funck, Kristen Elise 2010

机译：三角形双锥体氰化物簇族及其扩展结构的磁性和反应性研究
7. Probing the origin of the giant magnetic anisotropy in trigonal bipyramidal Ni(ii) under high pressure [O] . Gavin A. Craig, Arup Sarkar, Christopher H. Woodall, 2006

机译：高压下探索三角双锥Ni（ii）的巨大磁各向异性的起源
8. Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(II) [O] . Marriott, Katie E.R., Bhaskaran, Lakshmi, Wilson, Claire, 2015

机译：推动三角双锥体Ni（II）的磁各向异性极限
9. Poly(tertiary Phosphines and Arsines). 18. Preparation and Structure of bis(u-((methylamino)bis(dimethoxyphosphine)))-bis(dicarbonylcobalt), a Binuclear Complex with Approximate Square-Pyramidal and Trigonal-Bipyramidal Coordinati [R] . Brown, G. M., Finholt, J. E., King, R. B., 1982

机译：聚（叔膦和胂）。 18.双（u - （（甲氨基）双（二甲氧基膦））） - 双（二羰基钴）的制备和结构，双核配合物具有近似方锥体和三角锥体的双锥体配位

Pushing the limits of magnetic anisotropy in trigonal bipyramidal Ni(ii)

摘要

著录项

相似文献

相关主题

期刊订阅