原子配位缺欠所致表面和纳米固体深层能级迁移,孙长庆,,Identifying the origin for core-level binding-energy shift induced by surface relaxation or nanosolid formation, and quantifying the crystal binding energy in a bulk solid has been
纳米硅介电驰豫,孙长庆,,Dielectric impedance measurements of nanosolid silicon within the frequency range of 50 Hz ~ 1.0 MHz and temperature range of 298 ~ 798 K revealed three semicircles in the Cole-Col
尺寸效应对纳米金的E4f能级结构和熔化温度的影响,孙长庆, H. L. Bai,onsistent insight into the size-enhanced E4f-level shift and the size-suppressed melting point of Au nanosolids has been obtained based on the bond order-length-strength (BOLS) cor
纳米固体与表面力学,孙长庆,L. K. Pan,An analytical solution shows that a competition between bond order loss and the associated bond strength gain of the lower coordinated atoms near the edge of a surface dictates the
纳米固体电亲和与热稳定的相关性,孙长庆,Yong Shi,Correlation between the thermal stability and electro-affinity of a nanosolid has been explored from the perspective of surface and interface bonding. It turns out that the coheren
表面钝化,界面作用及尺寸效应对铜纳米固体2p能级的影响,孙长庆,,Effects of surface passivation and particle-substrate interfacial reaction on the size dependent 2p3/2-level shift of nanosolid Cu have been numerically analyzed, leading to inform
纳米固体尺寸效应机理:键序-键长-键能相关理论及应用,孙长庆,,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 ma
纳米固体磁性,孙长庆,,Incorporating the recent bond order-length-strength correlation mechanism [Sun et al., Acta Mater 2004;52:501] into the Ising convention and the Brillouin function has enabled the
纳米硅的力,热,声,光,电,及介电行为:尺寸效应,孙长庆,,Structural miniaturization provides us with a new freedom that is indeed fascinating. The new freedom of size not only allows us to tune the physical and chemical properties of a s
纳米固体介电性,孙长庆,,An analytical solution is presented showing that the dielectric susceptibility of a nanosolid depends functionally on the crystal binding that determine the band gap and hence the
纳米固体中的反常 Hall-Petch 效应,孙长庆,S. Li,Temperature, size and bond nature dependence of nanosolid mechanics will be diesussed and qunantified in detail in terms of the recent BOLS correlation mechnism.
断键规则与纳米固体的弹性,延展性,德拜温度,比热,孙长庆,,With the miniaturization of a solid down to nanometers scale, the elasticity, extensibility, Debye temperature, and the specific heat capacity are no longer constant but change wit
孤立硅双原子键振动频率的测定:尺寸效应的新用途,L. K. Pan,孙长庆,A combination of the recently developed BOLS correlation [Sun, Phys. Rev B 72m 134301 (2005)] and the new freedom of size has allowed us to elucidate information about the vibratio
纳米固体硬壳易熔的起因,孙长庆,,Mechanism is presented for the facscinating facts thatthe surface shell of a nanosolid is harder at temaperature far below the melting point and the hard surface shell melts easier