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関連する概念動画

Metallic Solids02:37

Metallic Solids

21.0K
Metallic solids such as crystals of copper, aluminum, and iron are formed by metal atoms. The structure of metallic crystals is often described as a uniform distribution of atomic nuclei within a “sea” of delocalized electrons. The atoms within such a metallic solid are held together by a unique force known as metallic bonding that gives rise to many useful and varied bulk properties.
All metallic solids exhibit high thermal and electrical conductivity, metallic luster, and malleability....
21.0K
Batteries and Fuel Cells03:12

Batteries and Fuel Cells

31.1K
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...
31.1K
Bonding in Metals02:32

Bonding in Metals

53.0K
Metallic bonds are formed between two metal atoms. A simplified model to describe metallic bonding has been developed by Paul Drüde called the “Electron Sea Model”. 
53.0K
Structures of Solids02:22

Structures of Solids

18.9K
Solids in which the atoms, ions, or molecules are arranged in a definite repeating pattern are known as crystalline solids. Metals and ionic compounds typically form ordered, crystalline solids. A crystalline solid has a precise melting temperature because each atom or molecule of the same type is held in place with the same forces or energy. Amorphous solids or non-crystalline solids (or, sometimes, glasses) which lack an ordered internal structure and are randomly arranged. Substances that...
18.9K
DC Battery01:21

DC Battery

1.3K
A conductor needs to be a component of a path that creates a closed loop or full circuit to have a continuous current flowing through it. A current starts to flow if an electric field is created inside an isolated conductor that is not part of a full circuit. The conductor quickly develops a net positive charge at one end and a net negative charge at the other. These charges generate an electric field opposite the direction of the applied electric field, which reduces the current. Eventually,...
1.3K
Protein-protein Interfaces02:04

Protein-protein Interfaces

14.8K
Many proteins form complexes to carry out their functions, making protein-protein interactions (PPIs) essential for an organism's survival. Most PPIs are stabilized by numerous weak noncovalent chemical forces. The physical shape of the interfaces determines the way two proteins interact. Many globular proteins have closely-matching shapes on their surfaces, which form a large number of weak bonds. Additionally, many PPIs occur between two helices or between a surface cleft and a...
14.8K

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Updated: Feb 16, 2026

Solid-state Graft Copolymer Electrolytes for Lithium Battery Applications
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Solid-state Graft Copolymer Electrolytes for Lithium Battery Applications

Published on: August 12, 2013

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解読NASICONと固体電池用の金属インターフェース

Jiaqi Xu1, Taiguang Li2, Ying Wang3

  • 1Department of Mechanical and Aerospace Engineering, Syracuse University, Syracuse, New York, USA.

Advanced materials (Deerfield Beach, Fla.)
|February 15, 2026
PubMed
まとめ
この要約は機械生成です。

ナトリウム超イオン導体 (NASICON) 固体電池は安全性と高いエネルギー密度を提供します. このレビューは,NASICONONの詳細を記載しています.

キーワード:
デザインの基本と戦略を設計する.エレクトロライトと金属のインターフェースリチウム ナシコン ナシコンナトリウム ナシコン ナシコン固体電池は,固体電池として使用されています.

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Implantation and Control of Wireless, Battery-free Systems for Peripheral Nerve Interfacing
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科学分野:

  • マテリアルサイエンス 材料科学
  • 電気化学 電気化学について
  • エネルギー貯蔵 エネルギー貯蔵

背景:

  • 固体電池 (SSB) は,先進的なエネルギー貯蔵ソリューションです.
  • ナシコンの電解質は,空気安定性,高伝導性などの利点があります.
  • 金属アノドとのインターフェイスの不安定性は,NASICON SSBsの主要な課題です.

研究 の 目的:

  • ナトリウムおよびリチウムベースのSSBのためのNASICON材料の包括的なレビューを提供するために.
  • NASICONの固有の性質と界面分解機構を明らかにする.
  • NASICON SSBの緩和戦略と製造の洞察について議論する.

主な方法:

  • NASICONの基礎結晶学,熱力学,運動学のレビュー.
  • インターフェースの故障に対する高度な特徴化技術の分析.
  • エレクトロライト,電極,およびインターフェースの緩和戦略の合成.

主要な成果:

  • NASICONの特性と劣化行動の詳細な理解.
  • 障害分析のための高度な特徴付け方法の特定.
  • NASICON/金属アノドのインターフェースの強化のための包括的な戦略.

結論:

  • NASICONはSSBにとって有望な電解質ですが,インターフェイスの安定性は重要です.
  • 商業化には,体系的な理解と,ターゲットに絞られた戦略が必要である.
  • 将来の研究は,実用的なNASICON SSBのインターフェイス上の課題を克服することに焦点を当てるべきである.