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Atomic Emission Spectroscopy: Overview01:20

Atomic Emission Spectroscopy: Overview

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Atomic emission spectroscopy (AES) is an analytical technique used to determine the elemental composition of a sample by analyzing the light emitted from excited atoms. In AES, atoms in a sample are excited to higher energy levels by thermal energy from high-temperature sources, such as plasma, arcs, or sparks. When these excited atoms return to lower energy states, they emit light at specific wavelengths characteristic of each element. The resulting atomic emission spectrum, which consists of...
4.2K
Elements: Chemical Symbols and Isotopes02:31

Elements: Chemical Symbols and Isotopes

132.5K
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)...
132.5K
Isotopes and Radioisotopes01:28

Isotopes and Radioisotopes

13.5K
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...
13.5K
Nuclear Transmutation03:20

Nuclear Transmutation

21.0K
Nuclear transmutation is the conversion of one nuclide into another. It can occur by the radioactive decay of a nucleus, or the reaction of a nucleus with another particle. The first manmade nucleus was produced in Ernest Rutherford’s laboratory in 1919 by a transmutation reaction, the bombardment of one type of nuclei with other nuclei or with neutrons. Rutherford bombarded nitrogen-14 atoms with high-speed α particles from a natural radioactive isotope of radium and observed...
21.0K
Properties of Transition Metals02:58

Properties of Transition Metals

30.6K
Transition metals are defined as those elements that have partially filled d orbitals. As shown in Figure 1, the d-block elements in groups 3–12 are transition elements. The f-block elements, also called inner transition metals (the lanthanides and actinides), also meet this criterion because the d orbital is partially occupied before the f orbitals.
30.6K
Atomic Emission Spectroscopy: Lab01:29

Atomic Emission Spectroscopy: Lab

777
AES is a powerful analytical technique, especially effective when used with plasma sources, producing abundant spectra in characteristic emission lines. The Inductively Coupled Plasma (ICP), in particular, yields superior quantitative analytical data due to its high stability, low noise, low background, and minimal interferences under optimal experimental conditions. However, newer air-operated microwave sources are emerging as promising alternatives that could be more cost-effective than...
777

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Toxic Metals in a Green Transition: Global Health Risks, Sources, and Policy Responses-Insights from the Munich Toxic Metals Symposium 2025.

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Updated: Mar 20, 2026

Clean Sampling and Analysis of River and Estuarine Waters for Trace Metal Studies
10:44

Clean Sampling and Analysis of River and Estuarine Waters for Trace Metal Studies

Published on: July 1, 2016

12.2K

Trace element research-historical and future aspects.

Monica Nordberg1, Gunnar F Nordberg2

  • 1Institute of Environmental Medicine, Karolinska Institutet, SE- 171 77 Stockholm, Sweden.

Journal of Trace Elements in Medicine and Biology : Organ of the Society for Minerals and Trace Elements (GMS)
|May 31, 2016
PubMed
Summary
This summary is machine-generated.

Trace element research has advanced significantly, improving our understanding of their role in human health and disease. New methods enable better biomonitoring, crucial for assessing health outcomes and managing risks.

Keywords:
Biological monitoringBiomonitoringCadmiumEssentialityGlobal burden of diseaseMetallothioneinToxicity

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Area of Science:

  • Environmental Chemistry
  • Toxicology
  • Human Health

Background:

  • The International Society for Trace Element Research and Nordic Trace Element Society have been active for 30 years.
  • Recognition of trace elements' importance in human diseases and global burden of disease has grown.
  • Advances in analytical methods now link biomonitoring data to health outcomes.

Observation:

  • Knowledge of essentiality and toxicity of trace elements has expanded significantly.
  • Challenges in defining acceptable oral intakes for essential elements have been largely resolved.
  • Biological monitoring of trace elements in blood and urine is crucial.

Findings:

  • Biomonitoring data can now be correlated with health outcomes.
  • Elemental speciation and measurement of lower concentrations are future research focuses.
  • Understanding biokinetics, like cadmium's interaction with metallothionein, aids toxicity assessment.

Implications:

  • Future research will identify adverse effects and critical organs more precisely.
  • Risk assessment for metallic nanomaterials and medical devices presents new challenges.
  • Improved biomonitoring enhances understanding of trace element impacts on human health.