• News
  • Design
  • Test & Measure
  • Compliance
    • Standards Guidance
    • Standards Library
  • Career
    • Professional Development
    • Events
  • Industry
  • Magazine
    • In This Issue
    • Past Issues
    • Subscribe
Search
In Compliance Magazine logo
  • News
    Random
    • article placeholder

      System One Acquires Joule, Expands Network to Deliver Specialized Workforce Solutions

    Recent
    • FCC Orders Blocking of Calls from Robocall Gateway Facilitator

    • FCC Proposes Expansion of Short-Range Radar Operation

    • FCC Threatens Fines for Illegal Use of Mobile Frequencies

    • Engineering News
    • Global Compliance News
    • Industry News
    • You Can’t Make This Stuff Up
  • Design
    Random
    • 1204 F2 fig1

      Power Quality and EMC

    Recent
    • ESD Designers’ Headache with Multiple Automotive Test Requirements, Part I

    • Troubleshooting EMI Issues Caused by Structural Resonances

    • Energy Release Quantification for Li-Ion Battery Failures

    • EMC Management in Charging Applications

    • Common Mode Filter Design Guide

    • SCIF and Radio Frequency Secured Facility Design, Part 2

  • Test + Measure
    Random
    • article placeholder

      Medical Devices in a Wireless World

    Recent
    • Line Impedance Stabilization is in its Seventieth Year and Still Going Strong

    • Seventy Years of Electromagnetic Interference Control in Planes, Trains, and Automobiles (and Ships and Spaceships, as well)

    • ESD Designers’ Headache with Multiple Automotive Test Requirements, Part I

    • Top 10 ISO/IEC 17025:2017 Deficiencies Found in Electronics Testing Laboratories

    • Automotive EMC Testing: CISPR 25, ISO 11452-2 and Equivalent Standards, Part 2

    • 9 Steps to Select a Test Cable for Millimeter Wave Applications

  • Standards
    Random
    • Recently Published Standard, IEC 60730-2-15:2017 for Automatic Electrical Controls

    Recent
    • An Overview of Aerospace Battery Compliance

    • The Future of Wi-Fi

    • Top 10 ISO/IEC 17025:2017 Deficiencies Found in Electronics Testing Laboratories

    • Standards Articles
    • Standards Library
      • EMC Standards
      • Energy Standards
      • ESD Standards
      • Safety Standards
      • SmartGrid Standards
    • Standards Updates
  • Fundamentals
    Random
    • 1407 TS fig1

      The Hazards of Multiple Grounding

    Recent
    • NASA Space Shuttle’s Return to Flight: The Untold Electromagnetic Backstory

    • Continuing Your Professional Education in 2022

    • A Recipe for Success: How to Grow from EMC Novice to EMC Expert

    • Capacitors: Theory and Application

    • Ohm’s Law Also Applies to ESD‑Induced Heat Pulses

    • RF Tech Tip: BNC Versus Threaded Connectors

  • Resources
    • Resource Library
    • Career
    • Event Calendar
    • The Directory
    • Terms & Definitions
  • Magazine
    • Subscribe
      • In Compliance Magazine
      • eNewsletters
      • Renew your Subscription
    • Issue Archive
      • Current Issue
      • Past Issues
    • Columns
      • Banana Skins
      • EMC Concepts Explained
      • Hot Topics in ESD
      • Mr. Static
      • On Your Mark
      • Practical Tips
      • Product Insights
      • Questions To Ask
      • Technically Speaking
      • Reality Engineering
      • Selection Tips
      • Troubleshooting EMI Like a Pro
      • The View from the Chalkboard
Breaking
  • FCC Orders Blocking of Calls from Robocall Gateway Facilitator
  • FCC Proposes Expansion of Short-Range Radar Operation
  • FCC Threatens Fines for Illegal Use of Mobile Frequencies
  • FCC Chair Proposes Videoconferencing Accessibility Requirements
  • Subscribe
  • Contribute
  • Advertise
  • Directory
  • About

Tagged atomically thin materials

Home
atomically thin materials

Researchers Construct Ultra-Thin Heat Shield To Protect Electronic Devices

Researchers from Stanford University have invented a new type of heat shield that could protect consumer electronics, and allow them to become even smaller and more compact.

Creating New Quantum Materials Out Of Atomically Thin Semiconductors

Scientists from the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have created a new way to create quantum materials out of semiconductors.

Improving the Performance of Atomically Thin Semiconductor Material

Scientists have discovered a surprising way to improve the performance of semiconductors.

Get the Current Issue

June 2023

Get the Digital Edition

In Compliance is a leading source of news, information, education, and inspiration for electrical and electronics engineering professionals.

 

Visit our benefactors:

Browse by Industry

Aerospace
Automotive
Communications
Consumer Electronics
Education
Energy & Power
Industrial
Information Technology
Medical
Military & Defense

Latest Engineering News

  • U.S. DoE to Provide Nearly $3 Billion for EV Battery Development, Manufacturing

  • Wirelessly Powering IoT With 5G Network

  • Polymer Film Can Limit Electromagnetic Interference

  • Using Nanomaterials to Create a Passive Dual-Mode Heating and Cooling Device

  • Scientists Develop Highly Efficient Supercapacitor That Could Rival Batteries

© 2009-2023 Same Page Publishing. All rights reserved.
  • Contact Us
  • Privacy Policy
  • Terms of Use
  • Change of Address
  • Cancel Subscription
X