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Chemical Shift: Internal References and Solvent Effects01:17

Chemical Shift: Internal References and Solvent Effects

In an NMR sample, precise measurement of the absolute absorption frequencies of nuclei is difficult. A standard internal reference compound is added, and the frequency difference between the reference signal and sample signals is measured.
The internal reference compound generally used in NMR spectroscopy is tetramethylsilane (TMS). TMS is preferred because it is chemically inert, soluble in NMR solvents, and easily removable. Also, the highly shielded methyl protons in TMS yield an intense...
Isotopes and Radioisotopes01:28

Isotopes and Radioisotopes

In the early 1900s, English chemist Frederick Soddy realized that an element could have atoms with different masses that were chemically indistinguishable. These different types are called isotopes — atoms of the same element that differ in mass. Isotopes differ in mass because they have different numbers of neutrons but are chemically identical because they have the same number of protons. Soddy was awarded the Nobel Prize in Chemistry in 1921 for this discovery.
An isotope containing more...
Elements: Chemical Symbols and Isotopes02:31

Elements: Chemical Symbols and Isotopes

A chemical symbol is an abbreviation used to indicate an element or an atom of an element. For example, the symbol for mercury is Hg. The same symbol is used to indicate one atom of mercury (microscopic domain) or to label a container of many atoms of the element mercury (macroscopic domain).
Some symbols are derived from the common English name of the element; others are abbreviations of the name in another language — Latin, Greek or German. For example, the symbol for aluminum (common name)...
Isotopes01:12

Isotopes

Elements have a set number of protons that determines their atomic number (Z). For example, all atoms with eight protons are oxygen; however, the number of neutrons can vary for atoms of the same element. The sum of the number of protons and the number of neutrons is the mass number (A). Atoms with the same atomic number but different mass numbers are called isotopes. Elements can have multiple isotopes, for example, carbon-12, carbon-13, and carbon-14.
An element's atomic mass, or weight, is a...
Other Nuclides: 31P, 19F, 15N NMR01:16

Other Nuclides: 31P, 19F, 15N NMR

Many organic, inorganic, and biological molecules contain spin-half nuclei such as nitrogen-15, fluorine-19, and phosphorus-31. As a result, NMR studies of these nuclei have found extensive applications in chemical and biological research.
While fluorine-19 and phosphorous-31 have high natural abundances (100%) and positive gyromagnetic ratios, nitrogen-15 has a low natural abundance and a negative gyromagnetic ratio. However, nitrogen-15 is still preferred over nitrogen-14 (which has a high...
Mass Spectrometry: Isotope Effect01:13

Mass Spectrometry: Isotope Effect

Most elements exist in nature as a mixture of isotopes. The isotopes differ in weight due to their respective number of neutrons. The molecular weight of a molecule is different depending on the specific isotope of its elements involved. As a result, the mass spectrum of the molecule exhibits peaks from the same fragment at multiple positions. The positions of these mass signals depend on the mass differences between isotopes. Furthermore, the intensity of these signals is dependent on the...

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Related Experiment Video

Updated: May 16, 2026

Preparing an Isotopically Pure 229Th Ion Beam for Studies of 229mTh
10:42

Preparing an Isotopically Pure 229Th Ion Beam for Studies of 229mTh

Published on: May 3, 2019

The need for new isotope reference materials.

Jochen Vogl1, Martin Rosner, Wolfgang Pritzkow

  • 1BAM Federal Institute for Materials Research and Testing, Berlin, Germany. jochen.vogl@bam.de

Analytical and Bioanalytical Chemistry
|December 15, 2012
PubMed
Summary
This summary is machine-generated.

High-quality isotope reference materials are crucial for accurate analytical measurements. Current production lags behind analytical advancements, necessitating the development of new materials for reliable isotope research.

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Area of Science:

  • Analytical Chemistry
  • Geochemistry
  • Environmental Science

Background:

  • Isotope reference materials are essential for calibrating analytical procedures for isotope amount ratios and delta values.
  • Analytical progress in isotope ratio determination has outpaced the availability of necessary reference materials.
  • Existing reference materials are insufficient to meet the growing demands of isotope analysts.

Purpose of the Study:

  • To highlight the challenges in producing isotope reference materials.
  • To demonstrate the potential of well-characterized reference materials.
  • To emphasize the urgent need for expanded and new types of isotope reference materials.

Main Methods:

  • Analysis of three representative isotope systems to illustrate production difficulties.
  • Evaluation of technical and non-technical challenges in reference material production.
  • Assessment of the current state of available isotope and delta reference materials.

Main Results:

  • Significant analytical advancements in isotope ratio determination exist.
  • The production of isotope reference materials has not kept pace with analytical progress.
  • There is a clear deficit in the availability of diverse and certified reference materials.

Conclusions:

  • New isotope reference materials are critically needed for traceable and comparable data in isotope research.
  • The range of available isotope and delta reference materials must be expanded.
  • Matrix reference materials certified for isotope compositions or delta values should be developed and provided.