纳米固体尺寸效应:键序-键长-键能相关理论
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更新于2024-09-06
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"Size dependence of nanostructures (digest)" 是一篇由孙长庆撰写的文章,主要讨论了纳米固体材料的尺寸效应及其在纳米固体材料设计中的实际应用。文章详细回顾了近年来关于纳米固体材料可调性的机制研究,并试图通过引入键序-键长-键能(BOLS)相关理论来整合所有可观察到的性质、可调性模型以及大量实验数据。
在纳米科学领域,尺寸效应是一个关键现象,它涉及到当物质尺度缩小到纳米级别时,材料的物理和化学性质会发生显著变化。这篇摘要指出,文章的重点在于理解和利用这种尺寸效应,以便在纳米固体材料的设计中实现更精细的控制。作者提出,键序-键长-键能相关机制是解释这些变化的核心原理。
键序-键长-键能(BOLS)理论认为,当纳米结构的尺寸减小时,原子间的键合状态会受到影响。由于原子协调数(CN)的不完美,即原子周围的配位环境发生变化,较低配位的原子的剩余键会自发收缩。这种键长的变化直接影响了材料的键能,从而改变其电子结构、光学性质、磁性、热力学稳定性等众多特性。
文章可能还涵盖了如何通过调整纳米结构的尺寸来优化特定性能的应用实例,例如提高催化效率、改善电荷传输、调控光吸收等。此外,作者可能还讨论了不同类型的纳米结构(如纳米颗粒、纳米线、纳米管等)的尺寸效应差异,以及如何通过理论计算和实验验证来预测和控制这些效应。
通过BOLS关联机制,研究者可以更好地理解和预测纳米固体材料在小尺寸下的行为,这对于纳米技术的发展至关重要,包括纳米电子、纳米光子学、纳米催化和纳米生物技术等领域。该理论不仅提供了对基础物理现象的深刻理解,也为纳米材料的合成与应用提供了指导,推动了纳米科技的创新和进步。
"Size dependence of nanostructures (digest)" 是一篇深入探讨纳米固体尺寸效应的综述,它整合了实验观察和理论模型,强调了BOLS关联在理解和利用这一效应中的核心作用,对于纳米材料设计和应用具有重要指导意义。文章的全文可以通过链接获取,为读者提供了更全面的细节和数据支持。
1
Size dependency of nanosolid materials (Digest)
Chang Q. Sun
∗
School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore 639798
Institute of Advanced Materials Physics and Faculty of Science, Tianjin University, 300072,
P. R. China
E-mail: ecqsun@ntu.edu.sg; URL: www.ntu.edu.sg/home/ecqsun/
(69.8 k words inclusive; 50 figs, 16 tab, 650 refs, Updated: 06/25/2005)
Full article is available:
http://arxiv.org/abs/cond-mat/0506113
Abstract
A review is presented on the recent progress in understanding the mechanism behind the
tunability of nanosoild materials with emphasis on its practical applications in nanosolid
materials design. Attempt has been made to reconcile all detectable and tunable properties and
all available models by incorporating an intensively verified bond order-length-strength
(BOLS) correlation mechanism as origin to all possible mechanisms and the huge database of
experimental observations. The BOLS correlation indicates that bond order loss, or atomic
coordination (CN) imperfection, causes the remaining bonds of the lower-coordinated atoms
to contract spontaneously associated with bond strength gain. Consequently, densification and
localization of charge, energy, and mass in surface skin and modification of cohesive energy of
the discreted atoms take place, which dictate the performance of a nanosoild of which the
portion of the lower-coordinated surface atoms increases with inverse of size. Consistency
between BOLS predictions and experimental observations confirms the tremendous impact of
bond order loss at grain boundaries on the performance of a nanosolid in mechanical strength,
thermal stability, acoustic vibration, photoemission and photoabsorption, electronic
configuration, magnetism and dielectrics, and on the activation energies for atomic diffusion,
atomic dislocation, and chemical reactivity as well as self-assembly growth. Extension of the
BOLS correlation to the understanding of liquid surfaces, structural defects, substitution
impurities, junction interfaces, and amorphous state, as well as transport dynamics is also
discussed, which might open up new directions of research.
Keywords: Nanostructures; low dimensional system; surface and interface; mesoscopic;
chemical bond; coordination number; bond contraction; mechanical strength; compressibility;
acoustics; thermal stability; optics; dielectrics; magnetism; phase transition; diffusivity;
reactivity; crystal growth.
∗
E-mail: ecqsun@ntu.edu.sg; URL: www.ntu.edu.sg/home/ecqsun/
http://www.paper.edu.cn
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