分 类 号:TQ324.8 [工业技术 > 化学工业 > 合成树脂与塑料工业 > 特种塑料]高被引论文
四、利用超星数字图书馆(图书检索)数据库检索检索到 6 条; 选用 1 条。
题目:有机高分子磁性材料研究进展
【作者】 邓芳; 何伟; 姜莹莹; 范惠琳; 蹇锡高;
【Author】 DENG Fang1, HE Wei1, JIANG Ying-ying1, FAN Hui-lin1, JIAN Xi-gao2(1. Key Laboratory of Applied Technology of Polymer Materials, the Education Department of Liaoning Province, Shenyang Institute of Chemical Technology, Shenyang 110142, China; 2. Department of Polymer Materials & Engineering, Dalian University of Technology, Dalian 116012, China) 【机构】 辽宁省高校高分子材料应用技术重点实验室,沈阳化工学院; 大连理工大学高分子材料系;
【摘要】 有机高分子磁性材料作为一种新型的功能材料,在超高频装置、高密度存贮材料、吸波材料和微电子工业等需要轻质磁性材料的领域具有很好的应用前景。室温稳定且具有实用价值的有机高分子磁性材料一直是该领域研究的热点。文中概述了纯有机类,大π键体系类,电荷转移复合物类和含金属原子复合物类等有机高分子磁性材料的最新研究进展,并介绍了各类有机高分子磁性材料的磁性能特点。 更多还原
【关键词】 磁性高分子; 有机磁体; 有机金属磁体; 电荷转移复合物;
五、利用 百度 检索。 检索到 4,760,000 条; 选用 1 条。 题目:分子磁性材料及其研究进展 作者:袁梅 王新益 张闻 高松
【摘要】:对分子磁性材料的一些基本概念和磁学现象作了简单介绍,主要包括磁耦合、磁有序、磁弛豫和自旋交叉等几个方面。重点综述了单分子磁体、单链磁体、自旋交叉化合物、多功能复合磁体以及磁性分子组装领域的研究进展。 出版日期:《大学化学》 2012年04期
【作者单位】: 北京大学化学与分子工程学院;
【关键词】: 分子磁性 单分子磁体 单链磁体 自旋交叉 多功能复合磁体 【基金】:国家自然科学基金项目 科技部项目 【分类号】:TM271 【正文快照】:
分子磁性材料是一类通过化学方法将自由基或顺磁离子(包括过渡金属离子和稀土金属离子)及抗磁配体以自发组装和控制组装的方式组合而形成的磁性化合物。由于较传统磁体有着密度小、透明度高、溶解性好、易于加工、可控性好等优点。
六、利用 谷歌 检索。 检索到 1,780,000 条; 选用 1 条。 题 目:分子磁性材料的研究进展
作 者: 袭著有 韩铁 王文新
摘 要:文章简明阐述了近年来分子磁性材料研究中的一些相关问题,对其研究的发展历史进行了回顾。介绍了当前分子磁性材料理论研究中定性和定量两方面的进展。同时对分子磁性材料实验研究中的热点问题进行了介绍,并展望了分子磁性材料潜在的应用前景。
【分 类】 【数理科学和化学】 > 分子物理学、原子物理学 > 分子物理学 【关键词】 分子磁性材料 理论 实验 进展
【出 处】 《纳米科技》2006年 第3期 15-19页 共5页 【收 录】 中文科技期刊数据库七、利用 《美国工程索引》(EI village2) 检索。 检索到 条; 选用 1 条。
1032 articles found in Compendex for 2008-2014: ((((magnetic materials) WN All fields) AND ((molecule) WN All fields)) AND ((research) WN All fields))
Accession number: 20123115299884
Title: Controlled association of single-molecule magnets (SMMs) into coordination networks: Towards a new generation of magnetic materials
Authors: Jeon, Ie-Rang1, 2, 3, 4; Clérac, Rodolphe1, 2
Author affiliation: 1 CNRS, CRPP, UPR 8641, F-33600 Pessac, France 2 Univ. Bordeaux, CRPP, UPR 8641, F-33600 Pessac, France
3 CNRS, ICMCB, UPR 9048, F-33600 Pessac, France
4 Univ. Bordeaux, ICMCB, UPR 9048, F-33600 Pessac, France
Corresponding author: Jeon, I.-R.
Source title: Dalton Transactions Abbreviated source title: Dalton Trans. Volume: 41 Issue: 32
Issue date: August 28, 2012 Publication year: 2012
Pages: 9569-9586 Language: English ISSN: 14779226 E-ISSN: 14779234 CODEN: DTARAF
Document type: Journal article (JA)
Publisher: Royal Society of Chemistry, Milton Road, Cambridge, CB4 OWF, United Kingdom
Abstract: The field of molecular magnetism has rapidly expanded since the discovery of single-molecule magnets (SMMs) at the beginning of the 1990s. Numerous SMMs have been studied and a broad
community currently works on these systems to improve their magnetic characteristics. However, it has also become an important strategy to diversify a part of our research activity toward the organization of these magnetic molecules in order to move closer to future applications. One of the possible ways is to utilize SMMs as molecular building blocks and assemble them with the help of coordination chemistry. This strategy presents a significant challenge since the intrinsic magnetic properties of the parent SMMs can be modified, which consequently also provides a unique opportunity to investigate new behaviours at the frontier between SMMs and classical bulk magnets. Furthermore, the design of systems with enhanced SMM properties or magnet behaviour is theoretically possible by choosing coordinating linkers that could favour an effective
ferromagnetic arrangement of the SMMs. In this perspective article, we will give an overview of the known networks based on SMMs with an emphasis on the synthetic strategies, magnetic properties, and finally possible routes to a new generation of molecular magnetic materials. 2012 The Royal Society of Chemistry.
Number of references: 210
Main heading: Magnets
Controlled terms: Coordination reactions - Magnetic materials - Magnetic properties - Magnetism - Molecules
Uncontrolled terms: Bulk magnets - Coordination chemistry - Coordination networks - Future applications - Magnetic
characteristic - Magnetic molecules - Molecular building blocks - Molecular magnetic materials - Molecular magnetism - Research activities - Single-molecule magnet - Synthetic strategies Classification code: 701.2 Magnetism: Basic Concepts and Phenomena - 708.4 Magnetic Materials - 802.2 Chemical Reactions - 931.3 Atomic and Molecular Physics
DOI: 10.1039/c2dt30906h Database: Compendex
Compilation and indexing terms, 2013 Elsevier Inc. 八、利用 Elsevier 数据库 检索。 检索到 条; 选用 1 条。 A symbol approach for classification of molecule-based magnetic
materials exemplified by coordination polymers of metal carboxylates. Coordination Chemistry Reviews, Volumes 258–259, January 2014, Pages 1-15
Authors:
Yan-Zhen Zheng a,Zhiping Zhenga c, Xiao-Ming Chen b Highlights:
We proposed a novel symbol approach for classification of molecular magnets.
This approach provides a concise feature for labelling molecular magnets.
The symbols can simplify the searching for certain molecular magnetism.
We reviewed recent examples of magnetic metal-carboxylate coordination polymers.
The construction of low-dimensional magnets has been focused. Abstract: The ever-growing family of molecule-based magnetic materials calls for a systematic classification of these structurally sophisticated and magnetically diverse compounds. Using magnetically active coordination polymers of metal carboxylates as representatives, we propose and
illustrate in this review a symbol approach for their organization and categorization. By adopting this approach, the seemingly complex
magneto-structural correlations in a wide variety of molecular magnetic materials, including single-molecule magnets, single-chain magnets, geometrically frustrated magnets, and high Curie-temperature magnets, can be readily discerned. Keywords:
Symbol approach; Molecular magnetism; Coordination polymer; Metal carboxylate
Corresponding author. Tel.: +86 29 83395354; fax: +86 29 83395354. Copyright ? 2013 Elsevier B.V. Published by Elsevier B.V. All rights reserved.
7.标示原文线索(16分)
要求:标出原文线索(即文献的出处),可以是该期刊文献的刊名、年卷期、会议文献的会议录名称;也可以是各类文献的收藏单位(图书馆或情报所、信息中心等、书店);也可以是网址等一切能够索取、借阅、复制或购买到原文的地址。 标示原文线索根据检索结果中的信息,应使相关目标文献准确定位,定位的基本条件是:篇名、著者、刊名、年、卷、期。原文线索序号必须与检索结果序号一致,便于回查。 1)、CNKI
【篇名】分子基磁性材料的发展和展望
【英文篇名】 Development and Prospects of Molecular-based Magnetic Materials
【作者中文名】 李跃华; 杨志毅;
【作者英文名】 LI Yuehua1; 2; YANG Zhiyi1*(1.College of Pharmacy and Chemistry; Dali University; Dali; Yunnan 671000; China; 2.College of Chemical Science and Technology; Yunnan University; Kunming 650091; China);
【作者单位】 大理学院药学与化学学院; 云南大学化学科学与技术学院;
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