Difference between revisions of "EPR / ESR Spectroscopy"
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| − | This is the main instructional portal for EPR/ESR spectroscopy at Monmouth College. EPR (Electron Paramagnetic Resonance) is also referred to as ESR (Electron Spin Resonance). From my (bes) ~20 years of EPR/ESR experience, researcher who study the unpaired electrons in organic molecules generally use the term ESR, whereas those who study unpaired electrons in metals use the term EPR. Some believe that the term ESR is outdated and that the term EPR should be used exclusively. | + | This is the main instructional portal for EPR/ESR spectroscopy at Monmouth College. EPR (Electron Paramagnetic Resonance) is also referred to as ESR (Electron Spin Resonance). From my (bes) ~20 years of EPR/ESR experience, researcher who study the unpaired electrons in organic/carbon-based molecules generally use the term ESR, whereas those who study unpaired electrons in metals use the term EPR. Some believe that the term ESR is outdated and that the term EPR should be used exclusively. Since my research experience involves the study of unpaired electrons in both organic and inorganic compounds, i use either term mainly based on the above definition. |
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==Introduction== | ==Introduction== | ||
| + | The electron is a partless-part that is integral to all molecular structure. As taught in general chemistry, element are defined in terms of the number of protons (the atomic number, Z); these elements also have an equivalent number of electrons hence balancing the charge. Also taught in general chemistry is the octet rule, which states that non-metals like C, N, O, and F each associate with other elements in order to obtain an electron configuration of the noble gases. For example, fluorine has 7 protons and 7 electrons and in order to obtain an electron configuration of Ne, it must associate with one element that can provide a single electron. Hydrofluoric acid (HF) results when hydrogen associates with a fluorine atom. Additionally, a fluorine atom can associate with a second fluorine atom to result in molecular fluorine (F<sub>2</sub>). | ||
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| + | Stable molecular compounds have all electrons paired. In only a small number of cases do | ||
==Instrumentation== | ==Instrumentation== | ||
Revision as of 14:19, 4 February 2020
This is the main instructional portal for EPR/ESR spectroscopy at Monmouth College. EPR (Electron Paramagnetic Resonance) is also referred to as ESR (Electron Spin Resonance). From my (bes) ~20 years of EPR/ESR experience, researcher who study the unpaired electrons in organic/carbon-based molecules generally use the term ESR, whereas those who study unpaired electrons in metals use the term EPR. Some believe that the term ESR is outdated and that the term EPR should be used exclusively. Since my research experience involves the study of unpaired electrons in both organic and inorganic compounds, i use either term mainly based on the above definition.
Introduction
The electron is a partless-part that is integral to all molecular structure. As taught in general chemistry, element are defined in terms of the number of protons (the atomic number, Z); these elements also have an equivalent number of electrons hence balancing the charge. Also taught in general chemistry is the octet rule, which states that non-metals like C, N, O, and F each associate with other elements in order to obtain an electron configuration of the noble gases. For example, fluorine has 7 protons and 7 electrons and in order to obtain an electron configuration of Ne, it must associate with one element that can provide a single electron. Hydrofluoric acid (HF) results when hydrogen associates with a fluorine atom. Additionally, a fluorine atom can associate with a second fluorine atom to result in molecular fluorine (F2).
Stable molecular compounds have all electrons paired. In only a small number of cases do