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

    RF Filters and Passive Components Enabling the 7 Missile RF Subsystems

    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

    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
  • Dossiers
    • AI Hardware Dossier
    • Power Converter Dossier
    • Automotive Dossier
    • Capacitor Dossier
    • Resistor Dossier
    • Inductor Dossier
    • Circuit Protection Dossier
  • 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

    RF Filters and Passive Components Enabling the 7 Missile RF Subsystems

    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

    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
  • Dossiers
    • AI Hardware Dossier
    • Power Converter Dossier
    • Automotive Dossier
    • Capacitor Dossier
    • Resistor Dossier
    • Inductor Dossier
    • Circuit Protection Dossier
  • 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

New materials for 4.4V “high-voltage” supercapacitors

8.2.2019
Reading Time: 2 mins read
A A

Source: Tohoku University news

The new material has an energy density 2.7 times higher than conventional materials A research team led by Tohoku University in Japan has developed new materials for supercapacitors with higher voltage and better stability than other materials. Their research was recently published in the journal Energy and Environmental Science.

RelatedPosts

RF Filters and Passive Components Enabling the 7 Missile RF Subsystems

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

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

Supercapacitors are rechargeable energy storage devices with a broad range of applications, from machinery to smart meters. They offer many advantages over batteries, including faster charging and longer lifespans, but they are not so good at storing lots of energy.

Scientists have long been looking for high-performance materials for supercapacitors that can meet the requirements for energy-intensive applications such as cars. “It is very challenging to find materials which can both operate at high-voltage and remain stable under harsh conditions,” says Hirotomo Nishihara, materials scientist at Tohoku University and co-author of the paper.

Nishihara and his colleagues collaborated with the supercapacitor production company TOC Capacitor Co. to develop a new material that exhibits extraordinarily high stability under conditions of high voltage and high temperature.

Conventionally, activated carbons are used for the electrodes in capacitors, but these are limited by low voltage in single cells, the building blocks that make up capacitors. This means that a large number of cells must be stacked together to achieve the required voltage. Crucially, the new material has higher single-cell voltage, reducing the stacking number and allowing devices to be more compact.

The new material is a sheet made from a continuous three-dimensional framework of graphene mesosponge, a carbon-based material containing nanoscale pores. A key feature of the materials is that it is seamless – it contains a very small amount of carbon edges, the sites where corrosion reactions originate, and this makes it extremely stable.

The researchers investigated the physical properties of their new material using electron microscopy and a range of physical tests, including X-ray diffraction and vibrational spectroscopy techniques. They also tested commercial graphene-based materials, including single-walled carbon nanotubes, reduced graphene oxides, and 3D graphene, using activated carbons as a benchmark for comparison.

They showed that the material had excellent stability at high temperatures of 60 °C and high voltage of 3.5 volts in a conventional organic electrolyte. Significantly, it showed ultra-high stability at 25°C and 4.4 volts – 2.7 times higher than conventional activated carbons and other graphene-based materials. “This is a world record for voltage stability of carbon materials in a symmetric supercapacitor,” says Nishihara.

The new material paves the way for development of highly durable, high-voltage supercapacitors that could be used for many applications, including motor vehicles.

Featured image: Developed GMS sheet and its supercapacitor connected to two LEDs. Copyright: Hirotomo Nishihara.

Publication Details:
Title: 4.4 V supercapacitors based on super-stable mesoporous carbon sheets made of edge-free graphene walls
Authors: Keita Nomura, Hirotomo Nishihara, Naoya Kobayashi, Toshihiro Asada, and Takashi Kyotani
Journal: Energy & Environmental Science
DOI: 10.1039/C8EE03184C

Related

Recent Posts

RF Filters and Passive Components Enabling the 7 Missile RF Subsystems

9.7.2026
9

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

8.7.2026
22

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

7.7.2026
40

Vishay Unveils Multi-Turn Position Sensor for Harsh Industrial Environments

7.7.2026
16

YAGEO Introduces Automotive MOV Surge Protection Varistor

7.7.2026
12

TDK Releases Compact SMD Gate Drive Transformers for xEV

7.7.2026
21

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
601

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