GOLDENE

TAG: GS 3: SCIENCE AND TECHNOLOGY

THE CONTEXT: Goldene, a one-atom thick sheet of gold, marks a significant advancement in material science.

EXPLANATION:

  • It was developed by researchers from Sweden’s Linköping University.
  • It represents the first instance of a free-standing 2D metal sheet, presenting unprecedented possibilities for various applications.
  • While 2D materials like graphene have been created before, developing metallic sheets at the atomic level posed significant challenges.
  • Metals tend to aggregate into nanoparticles rather than forming atom-thin sheets.
  • Previous attempts produced gold sheets embedded within other materials, but goldene is the first standalone 2D metal structure.

                                  One atom in goldene is bonded to six other gold atoms.

  • Goldene is a groundbreaking 2-dimensional allotrope of gold, consisting of a single layer of gold atoms arranged in a two-dimensional structure.
  • Goldene exhibits unique properties, such as semiconductor behavior when fabricated into this single-atom-thick layer, unlike the typical conductivity of gold.
  • These sheets are approximately 100 nanometers thick, making them around 400 times thinner than the thinnest commercially available gold leaf.
  • The creation of goldene involves a process where a single layer of silicon is placed between titanium carbide layers, and gold is added, diffusing into the structure and replacing the silicon.

Creation Process

  • Researchers employed a novel technique involving titanium carbide layers and a monolayer of silicon to create goldene.
  • Gold atoms were deposited onto this structure, diffusing into the material and replacing silicon atoms.
  • Subsequently, the titanium carbide layers were etched away, leaving behind a free-standing, one-atom thick gold layer.
  • The process involved the use of Murakami’s reagent, a chemical technique inspired by traditional Japanese sword forging methods.

Characteristics and Potential Applications

  • Goldene, approximately 100 nanometres thick, offers exceptional properties due to its ultra-thin nature.
  • Its potential applications span various industries, with particular significance in electronics.
  • As a highly economical catalyst, goldene could revolutionize electronic devices by reducing the need for gold atoms while maintaining functionality.

Future Prospects

  • The technique used to create goldene holds promise for other metallic materials as well.
  • Researchers are exploring the development of 2D sheets of iridium and platinum, expanding the potential applications of this groundbreaking technology.

Special Properties and Applications

  • Goldene’s unique structure, with each gold atom surrounded by only six neighboring atoms, unlocks potential applications in carbon dioxide conversion, hydrogen generation, catalysis, and water purification.
  • Its distinct properties make it a versatile material with wide-ranging implications for scientific and industrial innovation.
  • Super thin, super light material can potentially revolutionise the electronics industry.
  • Goldene holds promise as a significant catalyst because it’s much more economically viable than thicker, three-dimensional gold.

SOURCE: https://indianexpress.com/article/explained/explained-sci-tech/goldene-a-sheet-of-gold-that-is-only-one-atom-thick-9310360/

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