W. Y. Ching scite author profile

Our understanding of the "long range" electrodynamic, electrostatic, and polar interactions that dominate the organization of small objects at separations beyond an interatomic bond length is reviewed. From this basic-forces perspective, a large number of systems are described from which one can learn about these organizing forces and how to modulate them. The many practical systems that harness these nanoscale forces are then surveyed. The survey reveals not only the promise of new devices and materials, but also the possibility of designing them more effectively.

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Electronic, optical, and structural properties of some wurtzite crystals

Ching

1993

Phys. Rev. B

706

283

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Analytic solution of a two-dimensional hydrogen atom. I. Nonrelativistic theory

Yang

Guo²,

Chan³

et al. 1991

Phys. Rev. A

289

279

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Grain Boundary Strengthening in Alumina by Rare Earth Impurities

Buban

Matsunaga

Chen

et al. 2006

Science

418

236

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Impurity doping often alters or improves the properties of materials. In alumina, grain boundaries play a key role in deformation mechanisms, particularly in the phenomenon of grain boundary sliding during creep at high temperatures. We elucidated the atomic-scale structure in alumina grain boundaries and its relationship to the suppression of creep upon doping with yttrium by using atomic resolution microscopy and high-precision calculations. We find that the yttrium segregates to very localized regions along the grain boundary and alters the local bonding environment, thereby strengthening the boundary against mechanical creep.

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W. Y. Ching

Long range interactions in nanoscale science

Electronic, optical, and structural properties of some wurtzite crystals

Analytic solution of a two-dimensional hydrogen atom. I. Nonrelativistic theory

Grain Boundary Strengthening in Alumina by Rare Earth Impurities

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