Table of Contents
1. Introduction to Solid-State Batteries for New Energy Vehicles (NEVs)
  Battery Classification
  Comparison of Batteries with Liquid Electrolyte, Semi-Solid-State Batteries, and Solid-State Batteries in
  Terms of Operating Principles
  Differences between Batteries with Liquid Electrolyte and Solid-State Batteries in Terms of Manufacturing
  Process
  Three Main Technology Paths for Development of Solid-State Batteries

2. Comparative Analysis of Solid-State Batteries and Batteries with Liquid Electrolyte
  Bottleneck in Raising Energy Density of Li-ion Batteries with Liquid Electrolyte
  Lithium Dendrite as a Notable Safety Risk for Conventional Li-ion Batteries
  Cost Comparison between Solid-State Batteries and Li-ion Batteries with Liquid Electrolyte
  Overall Comparison between Solid-State Batteries and Li-ion Batteries with Liquid Electrolyte
  Issues to Be Resolved Before Commercialization of Solid-State Batteries

3. Battery and Car Manufacturers’ Plans for Development of Solid-State Batteries That Power NEVs
  Industry Chain for Solid-State Batteries
  Major Companies Involved in Development of Solid-State Batteries Worldwide
  Plans for Development of Polymer Solid-State Batteries
  Plans for Development of Sulfide Solid-State Batteries
  Plans for Development of Oxide Solid-State Batteries
  Plans of Japanese and South Korean Car Manufacturers
  Plans of European and US Car Manufacturers
  Plans of Chinese Car Manufacturers
  Notable Trends in Development of Solid-State Batteries

4. TRI’s View
  Projection on Gravimetric Energy Density (Specific Energy) of Battery Systems for NEVs

＜Total Pages：26＞