Passive Components Blog
No Result
View All Result
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

    YAGEO Presents NANOMET Soft Magnetic Cores for High‑Density Power Conversion

    Coilcraft Releases High-Current Ferrite Beads for CISPR 25 EMC compliance

    From DCL to SSC: Bridging Electrical Symptoms and Structural Indicators in Tantalum Capacitors

    Vishay Unveils Multi-Turn Position Sensor for Harsh Industrial Environments

    YAGEO Introduces Automotive MOV Surge Protection Varistor

    TDK Releases Compact SMD Gate Drive Transformers for xEV

    Wk 26 Electronics Supply Chain Digest

    High-Q RF & Microwave MLCCs: A Cross-Vendor Benchmark

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

    KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

    Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

    EMC‑Compliant PCB and Connector Design Guidelines

    Why Isolated DC/DC Power Supplies Fail Late, Würth Elektronik Podcast

    Designing 800 V DC EMC Filters: Calculation, Simulation and Measurement

    Current Sense Transformer Datasheet and Design‑in Guide

    Designing a USB Type‑C Flyback Planar Transformer with Frenetic’s Planar Tool

    Magnetics Design in High‑Frequency GaN Converters

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • DossiersNew
  • Suppliers
    • Who is Who
  • PCNS
    • PCNS 2025
    • PCNS 2023
    • PCNS 2021
    • PCNS 2019
    • PCNS 2017
  • Events
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

    YAGEO Presents NANOMET Soft Magnetic Cores for High‑Density Power Conversion

    Coilcraft Releases High-Current Ferrite Beads for CISPR 25 EMC compliance

    From DCL to SSC: Bridging Electrical Symptoms and Structural Indicators in Tantalum Capacitors

    Vishay Unveils Multi-Turn Position Sensor for Harsh Industrial Environments

    YAGEO Introduces Automotive MOV Surge Protection Varistor

    TDK Releases Compact SMD Gate Drive Transformers for xEV

    Wk 26 Electronics Supply Chain Digest

    High-Q RF & Microwave MLCCs: A Cross-Vendor Benchmark

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

    KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

    Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

    EMC‑Compliant PCB and Connector Design Guidelines

    Why Isolated DC/DC Power Supplies Fail Late, Würth Elektronik Podcast

    Designing 800 V DC EMC Filters: Calculation, Simulation and Measurement

    Current Sense Transformer Datasheet and Design‑in Guide

    Designing a USB Type‑C Flyback Planar Transformer with Frenetic’s Planar Tool

    Magnetics Design in High‑Frequency GaN Converters

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • DossiersNew
  • Suppliers
    • Who is Who
  • PCNS
    • PCNS 2025
    • PCNS 2023
    • PCNS 2021
    • PCNS 2019
    • PCNS 2017
  • Events
No Result
View All Result
Passive Components Blog
No Result
View All Result

Researchers Demonstrated 2D MXene Based Zinc-Ion Supercapacitor with Suppressed Self-Discharge Features

2.11.2022
Reading Time: 2 mins read
A A
Based on the design of nanoscale ion channels, MXene electrodes with maximized ion accessibility and high mechanical strength are constructed and used for high-capacity Zinc-ion energy storage. The design of in-plane ion channels provides a simple, efficient, and scalable approach to improve the electrochemical energy storage capacity of MXenes and other 2D materials. Image Credit: Science China Press

Based on the design of nanoscale ion channels, MXene electrodes with maximized ion accessibility and high mechanical strength are constructed and used for high-capacity Zinc-ion energy storage. The design of in-plane ion channels provides a simple, efficient, and scalable approach to improve the electrochemical energy storage capacity of MXenes and other 2D materials. Image Credit: Science China Press

Researchers, in study published by Science Bulletin, prepared MXene nanosheets with in-plane ion channels created by chemical oxidation and used as electrodes to create self-healing Zinc-ion micro-supercapacitors (ZIMC) with exceptional anti-self-discharge performances.

Two-dimensional transition-metal carbides (MXenes) are extremely competitive in electrochemical energy storage due to their highly hydrophilic surfaces and outstanding metal conductivity. However, the easy stacking-up inclination of interlayers would result in decreased ion accessibility and available transport paths within MXenes, limiting their electrochemical performance.

RelatedPosts

Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

YAGEO Presents NANOMET Soft Magnetic Cores for High‑Density Power Conversion

Coilcraft Releases High-Current Ferrite Beads for CISPR 25 EMC compliance

Numerous techniques have been developed to fully utilize MXenes’ advantages in electrochemical energy storage and prevent self-stacking behavior. Hole etching is one of the strategies employed to improve transport efficiency and ion accessibility, which can be applied to construct high-performance energy storage devices.

Particularly, chemical etching’s ability to produce nanoscale ion-channel electrodes offers promising application potential. Controlling the level of chemical etching for effective manipulation of electrochemical energy storage still poses significant difficulties.

This work is based on the design concept of nanoscale in-plane ion channels. While maintaining the superior mechanical strength and electrical conductivity of large-sized MXene nanosheets, the in-plane ion-channel equipped MXene nanosheets can reduce the ions’ transit distance and improve the electrochemical performance of ZIMC.

The self-healing MXene-based Zinc-ion micro-capacitor that was created has high areal specific capacitance (532.8 mF cm–2) at current densities of 2 mA cm–2, a low self-discharge rate of 4.4 mV h–1, and a high energy density of 145.1 μWh cm–2 at power densities of 2800 μW cm–2.

The developed ZIMC has significant promise for use in flexible electronics due to its superior anti-self-discharge and self-healing characteristics, which could support microelectronic devices for an extended period.

MXene electrodes with optimum ion accessibility and excellent mechanical strength are created and employed for high-capacity zinc-ion energy storage based on the construction of nanoscale ion channels.

An in-plane ion channel design provides a simplified, practical, and scalable method to significantly increase the electrochemical energy storage capability of MXenes and other 2D materials.

Journal Reference

Cheng, Y. et al. (2022) Maximizing the ion accessibility and high mechanical strength in nanoscale ion channel MXene electrodes for high-capacity zinc-ion energy storage. Science Bulletin. doi:10.1016/j.scib.2022.10.003

Related

Recent Posts

From DCL to SSC: Bridging Electrical Symptoms and Structural Indicators in Tantalum Capacitors

7.7.2026
39

High-Q RF & Microwave MLCCs: A Cross-Vendor Benchmark

2.7.2026
76

TAIYO YUDEN Introduced Hybrid Aluminum Capacitors for 48V Automotive Power Supplies

2.7.2026
62

YAGEO Announces July 2026 Capacitor Price Increase

1.7.2026
590

Enabling the 800 V AI Server Era: How C0G High-Voltage MLCC Supports Next-Generation Power Architectures

1.7.2026
143

MLCCs in the Age of AI: Q2 2026 Market Tightness

30.6.2026
389

AI Hardware Demand for Passive Components Dossier

30.6.2026
137

Skeleton Supercapacitor Achieves UL‑certified 3,500 A Peak Current for AI Data Centers

26.6.2026
74

100 V Hybrid Polymer Capacitor from VINA Enesol Targets 48–72 V Power Platforms

26.6.2026
202

Upcoming Events

Jul 14
16:00 - 17:00 CEST

EMC Design Essentials: Mastering Varistors and Common Mode Chokes

Jul 21
16:00 - 17:00 CEST

Safety by design: X and Y Interference suppression capacitors for power line filters

Jul 28
8:00 - 11:00 CEST

Post Procurement Testing of EEE Components for LEO Space Applications

View Calendar

Popular Posts

  • Boost Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Buck Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Flyback Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • LLC Resonant Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • MLCC and Ceramic Capacitors

    0 shares
    Share 0 Tweet 0
  • YAGEO Announces July 2026 Capacitor Price Increase

    0 shares
    Share 0 Tweet 0
  • Earthing Systems and IEC Classification Explained

    0 shares
    Share 0 Tweet 0
  • Nvidia Vera Rubin: Why One AI Rack Needs So Many More MLCC Capacitors

    0 shares
    Share 0 Tweet 0
  • MLCC Case Sizes Standards Explained

    0 shares
    Share 0 Tweet 0
  • Dual Active Bridge (DAB) Topology

    0 shares
    Share 0 Tweet 0

Newsletter Subscription

 

Passive Components Blog

© EPCI - Leading Passive Components Educational and Information Site

  • Home
  • Privacy Policy
  • EPCI Membership & Advertisement
  • About

No Result
View All Result
  • Home
  • Knowledge Blog
  • Dossiers
  • PCNS

© EPCI - Leading Passive Components Educational and Information Site

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version