H. I. Li

TL;DR: In this paper, the first dynamical low-energy electron diffraction study was performed to determine the geometry of a C60 monolayer, Agð111Þ-ð2 ffiffiffi p � 2 ffiffiffin p Þ30 � -C 60, and related density functional theory calculations.

TL;DR: The first dynamical low-energy electron diffraction study to determine the geometry of a C(60) monolayer, Ag(111)-(2 square Root of 3 x 2 square root of 3) 30 degrees -C(60), and related density functional theory calculations indicates that vacancy structures are the rule rather than the exception for C( 60) monlayers on close-packed metal surfaces.

TL;DR: In this paper, low-energy electron diffraction LEED indicates that the monolayer structure of C60 on Pb 111 comprises two coexisting incommensurate structures with nonsymmetry epitaxial rotations near 20° relative to the pb 111 lattice, observed in scanning tunneling microscopy STM as Moire superstructures having periods of about 46 A and 34 A.

TL;DR: In this paper, Pussi et al. proposed a method to solve a set of problems in physics and applied it in the field of Materials Science and Engineering at Lappeenranta University of Technology.

TL;DR: Shin et al. as discussed by the authors proposed a new method to solve the problem of particle beamforming and showed that it is possible to construct a beamforming model with particle filters and a particle filter.