Hydrogen Bonding and Electronic Structure of Liquid Water by X-Ray Emission Spectroscopy (XES) (CAT#: STEM-ST-0279-WXH)

Introduction

Water is the most abundant substance on our planet, and it is the principal constituent of all living organisms. Chemical reactions taking place in liquid water are essential for many important processes in electrochemistry, environmental science, pharmaceutical science, and biology in general. Many models have been proposed to view the details of how liquid water is geometrically organized by hydrogen-bond network. Hydrogen bond is an attractive interaction in a link between hydrogen atom and one of the highly electronegative and nonmetallic elements which contains a lone pair of electrons. Although H bonds are much weaker than conventional chemical bonds, they have important consequences on the properties of water. Diffraction of x rays and neutrons provides strong evidence that tetrahedral hydrogen-bond order persists beyond the melting transition, but with substantial disorder present.

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Principle Applications Procedure Materials Notes Related Products

Principle

XES is an element-specific method primarily used to analyze the partially occupied electronic structure of materials. The technique is one of the photon-in-photon-out spectroscopies in which an incident X-ray photon is used to excite a core electron, which leads to the transition of the electron from the ground state to the excited state, and then the excited state of the electron decays with the emission of an X-ray photon in order to fill the core hole.

Applications

Used for the study of electronic structure and for the qualitative and quantitative analysis of substances.

Materials

• X-ray emission spectrometer
• X-ray generating equipment (X-ray tube)
• Collimators
• Monochromators
• X-ray detectors

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