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Redox Reactions01:24

Redox Reactions

Oxidation-reduction or redox reactions involve the transfer of electrons from one molecule or atom to another. When an atom gains an electron, another atom must lose an electron, meaning oxidation and reduction must occur together. Since the redox occurs in pairs, the atom that gets oxidized is also called the reducing agent or reductant, and the atom that is reduced is also called the oxidizing agent or oxidant. A straightforward way to remember the definitions of oxidation and reduction is...
Electron Carriers01:24

Electron Carriers

Electron carriers can be thought of as electron shuttles. These compounds can easily accept electrons (i.e., be reduced) or lose them (i.e., be oxidized). They play an essential role in energy production because cellular respiration is contingent on the flow of electrons.
Over the many stages of cellular respiration, glucose breaks down into carbon dioxide and water. Electron carriers pick up electrons lost by glucose in these reactions, temporarily storing and releasing them into the electron...
¹³C NMR: ¹H–¹³C Decoupling01:04

¹³C NMR: ¹H–¹³C Decoupling

The probability of having two carbon-13 atoms next to each other is negligible because of the low natural abundance of carbon-13. Consequently, peak splitting due to carbon-carbon spin-spin coupling is not observed in spectra. However, protons up to three sigma bonds away split the carbon signal according to the n+1 rule, resulting in complicated spectra.
A broadband decoupling technique is used to simplify these complex, sometimes overlapping, signals. Broadband decoupling relies on a...
Voltammetry: Stripping Methods01:13

Voltammetry: Stripping Methods

Anodic Stripping Voltammetry (ASV), Cathodic Stripping Voltammetry (CSV), and Adsorptive Stripping Voltammetry (AdSV) are electrochemical techniques used to determine trace amounts of analytes in solution. These methods involve applying a potential to an electrode and measuring the resulting current.
Anodic Stripping Voltammetry (ASV)
ASV is used to determine metals and metalloids at trace levels. It involves two steps: deposition and stripping. First, a negative potential is applied to the...
Gas Chromatography: Types of Detectors-II01:19

Gas Chromatography: Types of Detectors-II

In gas chromatography, different detectors are employed to meet specific analytical needs. These detectors are often categorized based on their detection mechanisms and the types of compounds they are best suited to analyze. Thermal Conductivity Detectors (TCD), Flame Ionization Detectors (FID), and Electron Capture Detectors (ECD) represent common categories, each with unique operating principles and applications. However, beyond these, several other detectors are designed for more specialized...
Carbon-dioxide Fixation01:28

Carbon-dioxide Fixation

Carbon dioxide fixation in prokaryotes enables the assimilation of inorganic carbon into organic molecules, supporting biosynthetic pathways, sustaining ecosystems, and contributing to the global carbon cycle. It also has industrial applications in carbon capture and bioproduct synthesis. Autotrophic organisms rely on this process to utilize CO₂ as a carbon source in diverse environments.The Calvin CycleThe Calvin cycle is the most widespread carbon fixation mechanism, primarily used by...

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Updated: Jun 26, 2026

A Protocol for Detecting and Scavenging Gas-phase Free Radicals in Mainstream Cigarette Smoke
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Two-dimensional antimonene as a potential candidate for dioxin capture.

Moyassar Meshhal1, Ashour A Ahmed1, Mohamed F Shibl2

  • 1Institute of Physics, University of Rostock, Albert-Einstein-Str. 23-24, 18059 Rostock, Germany. moyassar.meshhal@uni-rostock.de.

Physical Chemistry Chemical Physics : PCCP
|August 16, 2024
PubMed
Summary

Antimonene, a novel nanomaterial, shows promise for capturing toxic dioxins. DFT calculations reveal pristine and doped antimonene effectively adsorb TCDD, outperforming other materials for environmental remediation.

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Area of Science:

  • Materials Science
  • Environmental Chemistry
  • Computational Chemistry

Background:

  • Dioxins pose significant environmental risks due to their high toxicity.
  • Developing efficient dioxin capture materials is crucial for environmental protection.
  • Antimonene exhibits unique properties making it suitable for various applications.

Purpose of the Study:

  • To investigate antimonene's potential as a dioxin capture agent.
  • To evaluate the adsorption of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on pristine and doped antimonene.
  • To compare antimonene's performance with existing nanomaterials for dioxin removal.

Main Methods:

  • Density Functional Theory (DFT) calculations were employed.
  • Adsorption of TCDD on pristine, Ca-, Ti-, and Ni-doped antimonene was simulated.
  • Analysis of adsorption energies, charge transfer, and densities of states.

Main Results:

  • Antimonene demonstrates strong adsorption capabilities for TCDD.
  • Doping antimonene with Ca, Ti, or Ni enhances its dioxin capture efficiency.
  • Calculated adsorption parameters indicate superior performance compared to other nanomaterials.

Conclusions:

  • Pristine and doped antimonene are promising candidates for dioxin capture.
  • Antimonene-based materials offer a novel strategy for removing toxic organic pollutants.
  • This study highlights antimonene's potential in environmental remediation applications.