本文将介绍此类分子磁体的研究新成果及发展前景。
This paper will present recent achievements and future perspectives of the system.
单分子磁体是介于分子基磁体和纳米磁性材料的学科交叉点。
The studies on single-molecular magnets( SMM's) are in the interface between molecule-based magnets and nanoscale magnetic materials.
单链磁体是继单分子磁体之后分子磁学领域的又一前沿课题。
The species, structures and magnetism study of single-chain magnets are generally reviewed in this paper.
最后,我们研究了自旋偏压驱动的单分子磁体的量子输运特性。
Finally, we study the transport properties of single molecular magnet driven by spin bias voltage.
所以,合成具有新颖的并具有预期磁性的分子磁体就显得非常重要。
It is very important to synthesize new molecular magnet which have fantastic magnetic property.
最后,总结了本文的研究工作,并展望分子磁体的潜在研究价值和新的应用前景。
Finally, this paper summarizes the research work and further prospects the potential research value and the wider application future on molecular magnets.
研究人员也一直在探索用纯有机化合物,亦或是由金属离子来结合有机组分制成分子磁体。
Researchers have also been exploring molecular magnets made from purely organic compounds, or by combining organic components with metal ions.
分子磁体是指通过有机、有机金属、配位化学和高分子化学方法在低温下合成的磁性材料。
Molecular magnets is through organic, organic metals, coordination chemistry and polymer chemistry synthesis of magnetic materials at low temperatures.
这个温度听起来很低,但实际上对于分子磁体来讲已经是一个相当高的温度了,而研究人员认为这是一个好兆头。
This sounds fairly cold, but is actually a pretty high temperature for a molecular magnet, which the researchers take as a good sign.
置于磁体附近的一块铁或一块钢,即使它没有触及该施感磁体,也会使其分子整齐地排列起来,从而本身也成了一块磁铁。
A lump of iron or steel placed near a magnet arranges its molecules in an orderly manner and ACTS as a magnet itself, even though it is not touching the influencing magnet.
置于磁体附近的一块铁或一块钢,即使它没有触及该施感磁体,也会使其分子整齐地排列起来,从而本身也成了一块磁铁。
A lump of iron or steel placed near a magnet arranges its molecules in an orderly manner and ACTS as a magnet itself, even though it is not touching the influencing magnet.
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