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Molecular and Ionic Solids02:54

Molecular and Ionic Solids

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Crystalline solids are divided into four types: molecular, ionic, metallic, and covalent network based on the type of constituent units and their interparticle interactions.
Molecular Solids
Molecular crystalline solids, such as ice, sucrose (table sugar), and iodine, are solids that are composed of neutral molecules as their constituent units. These molecules are held together by weak intermolecular forces such as London dispersion forces, dipole-dipole interactions, or hydrogen bonds, which...
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Types Of Superconductors01:28

Types Of Superconductors

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A superconductor is a substance that offers zero resistance to the electric current when it drops below a critical temperature. Zero resistance is not the only interesting phenomenon as materials reach their transition temperatures. A second effect is the exclusion of magnetic fields. This is known as the Meissner effect. A light, permanent magnet placed over a superconducting sample will levitate in a stable position above the superconductor. High-speed trains that levitate on strong...
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Superconductor01:24

Superconductor

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A substance that reaches superconductivity, a state in which magnetic fields cannot penetrate, and there is no electrical resistance, is referred to as a superconductor. In 1911, Heike Kamerlingh Onnes of Leiden University, a Dutch physicist, observed a relation between the temperature and the resistance of the element mercury. The mercury sample was then cooled in liquid helium to study the linear dependence of resistance on temperature. It was observed that, as the temperature decreased, the...
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Batteries and Fuel Cells03:12

Batteries and Fuel Cells

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A battery is a galvanic cell that is used as a source of electrical power for specific applications. Modern batteries exist in a multitude of forms to accommodate various applications, from tiny button batteries such as those that power wristwatches to the very large batteries used to supply backup energy to municipal power grids. Some batteries are designed for single-use applications and cannot be recharged (primary cells), while others are based on conveniently reversible cell reactions that...
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Semiconductors01:22

Semiconductors

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There is variation in the electrical conductivity of materials - metals, semiconductors, and insulators that are showcased with the help of the energy band diagrams.
Metals such as copper (Cu), zinc (Zn), or lead (Pb) have low resistivity and feature conduction bands that are either not fully occupied or overlap with the valence band, making a bandgap non-existent. This allows electrons in the highest energy levels of the valence band to easily transition to the conduction band upon gaining...
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Band Theory02:35

Band Theory

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When two or more atoms come together to form a molecule, their atomic orbitals combine and molecular orbitals of distinct energies result. In a solid, there are a large number of atoms, and therefore a large number of atomic orbitals that may be combined into molecular orbitals. These groups of molecular orbitals are so closely placed together to form continuous regions of energies, known as the bands.
The energy difference between these bands is known as the band gap.
Conductor, Semiconductor,...
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Video Experimental Relacionado

Updated: May 20, 2025

Focused Ion Beam Fabrication of LiPON-based Solid-state Lithium-ion Nanobatteries for In Situ Testing
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Focused Ion Beam Fabrication of LiPON-based Solid-state Lithium-ion Nanobatteries for In Situ Testing

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Conductores superiónicos de litio de conducción superficial para baterías de estado sólido

Bing Ai1, Wenru Zhao2, Malin Li3

  • 1State Key Laboratory of Bioinspired Interfacial Materials Science, Innovation Center for Chemical Science, College of Chemistry Chemical Engineering and Materials Science, Soochow University, Suzhou 215123, PR China.

Journal of the American Chemical Society
|March 24, 2025
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores desarrollaron nuevos conductores superiónicos de litio de conducción superficial a través de la quimiosorción, mejorando el rendimiento de la batería de estado sólido. Este avance ofrece electrolitos ligeros y altamente conductores para el almacenamiento avanzado de energía.

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Screening of Coatings for an All-Solid-State Battery Using In Situ Transmission Electron Microscopy
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Área de la Ciencia:

  • Ciencias de los materiales
  • La electroquímica
  • Química del estado sólido

Sus antecedentes:

  • Los conductores superiónicos de litio a granel enfrentan limitaciones como la interrupción del límite de grano y la porosidad, lo que dificulta la densidad de energía en las baterías de estado sólido.
  • A menudo se requiere una alta densificación, lo que puede comprometer la densidad de energía gravimétrica de las baterías de estado sólido.

Objetivo del estudio:

  • Descubrir y desarrollar una nueva clase de conductores superiónicos de litio.
  • Para superar las limitaciones de los conductores a granel mediante la utilización de la absorción química superficial para mejorar el transporte de iones de litio.
  • Para crear electrolitos de estado sólido ultraligeros y altamente conductores para baterías de alta densidad energética.

Principales métodos:

  • La absorción química superficial de los ligandos en sustratos inertes (por ejemplo, nanohojas de TiO2) para crear sitios de unión y salto de iones de litio.
  • Caracterización de la difusión superficial de Li+ mediante técnicas electroquímicas.
  • Fabricación de un electrolito en estado sólido de óxido aerogel ultraligero.
  • Montaje y ensayo de una batería de estado sólido a base de LiFePO4.

Principales resultados:

  • Se logró una alta movilidad de iones superficiales de 3,61 × 10^-7 cm^2·V^-1·s^-1 en TiO2 etileno glicolado, una mejora del 600% con respecto al Li7La3Zr2O12 a granel.
  • Se ha desarrollado un electrolito de óxido de aerogel ultraligero con una densidad de 0,29 g/cm3.
  • Se demostró una batería de estado sólido basada en LiFePO4 con una densidad de energía de ~ 295 Wh·kg^-1, 160% más alta que una batería basada en Li7La3Zr2O12.
  • Mostró la generalización del diseño conductor de superficie para diversos cationes y sustratos.

Conclusiones:

  • La quimiosorbción de superficie es una estrategia viable para crear nuevos conductores superiónicos de litio que conducen en superficie.
  • Este enfoque permite el desarrollo de electrolitos de estado sólido ultraligeros y altamente conductores.
  • Los hallazgos prometen avances significativos en la tecnología de baterías de estado sólido y otras aplicaciones que requieren un transporte eficiente de iones.