DeVine et al.
used photoelectron spectroscopy to discern the quantum mechanical underpinnings of this 1,2 shift in a prototypical case: conversion of vinylidene (H2CC) to acetylene (HCCH).
Not exact matches
Meanwhile, Franklin Tao, Luan Nguyen and Xiaoyan Zhang of the University of Kansas
used ambient pressure X-ray
photoelectron spectroscopy to characterize the oxidation state of cerium oxide, which was critical to deriving the mechanism.
Sample imaged
using ARPES: Scientists at PGI - 3
used angle - resolved
photoelectron spectroscopy (ARPES) to determine the degree of doping in the graphene samples.
This achievement, reported in a paper published today in Nature Communications, will enable scientists to
use traditional surface - science tools — such as x-ray
photoelectron and infrared reflection absorption spectroscopy — to perform detailed studies of single gas atoms in confinement.
Using X-ray
photoelectron spectroscopy and Fourier transform infrared imaging, the team found carbonyl groups at the tail ends of the polymer chains.
The researchers
used high - resolution scanning electron microscopy with energy dispersive x-ray analysis to study microstructure and elemental composition, and high - resolution x-ray
photoelectron spectroscopy for more detailed chemical characterization.
Ionospheric
photoelectrons can be
used as an important diagnostic tool for the topology of the solar wind interaction with both magnetized and unmagnetized objects (Coates et al. 2011), possibly playing a role also in enhancing the ion escape.
The project also
used the expertise of staff and several advanced instruments — environmental transmission and scanning electron microscopes, an X-ray
photoelectron spectrometer and a Mössbauer spectrometer — at EMSL, the Environmental Molecular Sciences Laboratory, a DOE Office of Science User Facility at PNNL.
Using a combination of spectro -
photoelectron holography, electrical property measurements, and first - principles dynamics simulations, the 3D atomic structures of dopant impurities in a semiconductor crystal...
Their method
uses x-rays, in the form of x-ray
photoelectron spectroscopy.
The team
used temperature - controlled
photoelectron spectroscopy in EMSL, the DOE's Environmental Molecular Sciences Laboratory on the PNNL campus, to determine how tightly one cyanide ion and one to three water molecules interact at the very low temperature of -438 °F (12 Kelvin) and again at ambient temperature of 80 °F (equivalent to 300 Kelvin).