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953145

イオン伝導セラミックス:世界市場

Ion-conducting Ceramics: Global Markets

出版日: | 発行: BCC Research | ページ情報: 英文 145 Pages | 納期: 即納可能 即納可能とは

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イオン伝導セラミックス:世界市場
出版日: 2020年08月05日
発行: BCC Research
ページ情報: 英文 145 Pages
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 図表
  • 目次
概要

世界のイオン伝導セラミックス市場は、2020年の1億8300万米ドルから、2025年までに3億3800万米ドルまで拡大し、2020年~2025年のCAGRで13.1%の成長が予測されています。

当レポートでは、世界のイオン伝導セラミックス市場について調査分析し、現在の市場状況、動向、5年間の成長予測について、体系的な情報を提供しています。

目次

第1章 イントロダクション

第2章 サマリーとハイライト

第3章 市場と技術の背景

  • イオン伝導セラミックス
  • セラミックス
  • イオン伝導セラミックスの歴史のマイルストーンと最近の出来事
  • イオン伝導セラミックスの現在・新興の用途
  • 化学/石油化学/環境
  • エネルギー
  • センサー・計装
  • その他

第4章 技術

  • イントロダクション
  • 材料
  • セラミックス
  • イオン伝導セラミックスの製造プロセス
  • ソリッドステートルート
  • ゾルゲル法
  • テープ成形
  • 薄膜
  • 最新の技術開発
  • 高伝導 NASICON 電解液
  • 電解液用のインク配合
  • 水酸化物イオン伝導セラミックスセパレーター
  • ICC用の低コスト製造プロセス
  • その他の関連する研究開発活動

第5章 世界市場

  • 分析の概要
  • 世界市場サマリー
  • 現在の市場状況
  • 市場:材料カテゴリー別
  • 市場:材料化学別
  • 酸化物ICC市場:組成別
  • 非酸化物ICC市場:組成別
  • 市場:構成別
  • 市場:用途別
  • 市場:地域別
  • 市場の成長動向
  • エネルギー
  • センサー・計装
  • 化学/石油化学/環境
  • その他の技術動向
  • 地域動向
  • 市場予測
  • 市場:材料カテゴリー別
  • 市場:材料化学別
  • 酸化物ICC市場:組成別
  • 非酸化物ICC市場:組成別
  • 市場:構成別
  • 市場:用途別
  • 市場:地域別

第6章 世界の業界構造と企業プロファイル

  • イオン伝導セラミックスの主要メーカー
  • 主要メーカーの分布:材料タイプ別・地域別
  • その他の業界企業
  • 企業プロファイル
  • AMPCERA
  • BASF
  • CERAMIQUES TECHNIQUES INDUSTRIELLES
  • CHAOZHOU THREE-CIRCLE
  • COORSTEK
  • CORNING
  • ENLIGHTEN INNOVATIONS
  • ION STORAGE SYSTEMS
  • IONOTEC
  • JIANGSU GALAXI INDUSTRIAL
  • KERACEL
  • KYOCERA
  • LINDE
  • MURATA MANUFACTURING
  • NEXCERIS
  • NGK INSULATORS
  • OHARA
  • ROBERT BOSCH
  • SAINT-GOBAIN
  • SCHOTT

第7章 特許分析

  • イントロダクション
  • 最近取得した特許サマリー
  • 一般動向
  • 動向:国別・地域別
  • 動向:譲受人別
  • 動向:特許カテゴリー別
  • 動向:材料カテゴリー別
  • 動向:材料の組成別
  • 動向:用途別
図表

List of Tables

  • Summary Table: Global Market for Ion-conducting Ceramics, by Application, Through 2025
    • Table 1: Global Market for Traditional and Technical Ceramics, by Category, Through 2025
    • Table 2: Technological Milestones for Ion-conducting Ceramics
    • Table 3: Global Patent Applications and Patents Issued for Ion-conducting Ceramics, 1990-2019
    • Table 4: Applications of ICCs in the Chemical/Petrochemical/Environmental Sector, 2020
    • Table 5: Applications of ICCs in the Energy Sector, 2020
    • Table 6: Applications of ICCs in the Sensors and Instrumentation Sector, 2020
    • Table 7: Lanthanoids, by Type
    • Table 8: Fluorite-type ICCs and Main Applications
    • Table 9: Common Perovskite Compounds
    • Table 10: Perovskite ICCs and Main Applications
    • Table 11: Garnet-Type ICCs and Main Applications
    • Table 12: Simple Oxide ICCs and Main Applications
    • Table 13: Phosphate ICCs and Main Applications
    • Table 14: Nitride ICCs and Main Applications
    • Table 15: Fluoride and Antiperovskite ICCs and Main Applications
    • Table 16: Glass-Ceramic ICCs and Main Applications
    • Table 17: Basic Thin-Film Device Fabrication Steps
    • Table 18: Thin-Film Coating Technologies
    • Table 19: Thin Film Printing Technologies
    • Table 20: Other Relevant R&D Activities, 2020
    • Table 21: Drivers, Restraints, Challenges, and Opportunities for the ICC Market
    • Table 22: Global Market for ICCs, by Application, Through 2025
    • Table 23: Global Market for ICCs, by Category of Material, Through 2020
    • Table 24: Global Market for ICCs, by Chemistry of Material, Through 2020
    • Table 25: Global Market for Oxide ICCs, by Composition, Through 2020
    • Table 26: Global Market for Non-oxide ICCs, by Composition, Through 2020
    • Table 27: Global Market for ICCs, by Configuration, Through 2020
    • Table 28: Global Market for ICCs, by Application, Through 2020
    • Table 29: Global Market for ICCs, by Country/Region, Through 2020
    • Table 30: Global Market for Fuel Cells, by Type, Through 2025
    • Table 31: Global Market for Solid Oxide Fuel Cells, by Application, Through 2025
    • Table 32: Global Market for Solid Oxide Fuel Cells, by Configuration, Through 2025
    • Table 33: Global Market for Solid Oxide Fuel Cells, by Country/Region, Through 2025
    • Table 34: Global Market for Batteries, by Main Category, Through 2025
    • Table 35: Global Market for Solid-State Batteries, by Type, Through 2025
    • Table 36: Global Market for Solid-State Batteries, by Configuration, Through 2025
    • Table 37: Global Market for Solid-State Batteries, by Application, Through 2025
    • Table 38: Global Market for Solid-State Batteries, by Country/Region, Through 2025
    • Table 39: Global Market for Sensors, by Type, Through 2025
    • Table 40: Global Market for Gas Sensors, by Type, Through 2025
    • Table 41: Global Market for Gas Sensors, by Application, Through 2025
    • Table 42: Global Market for Gas Sensors, by Country/Region, Through 2025
    • Table 43: Global Market for Oxygen, by Country/Region, Through 2025
    • Table 44: Global Market for Syngas, by Country/Region, Through 2025
    • Table 45: Global Market for Methane, by Country/Region, Through 2025
    • Table 46: Global Market for Sodium-ion Batteries, by Country/Region, Through 2025
    • Table 47: Membrane-based Separation Processes
    • Table 48: Global Market for Membranes, by Country/Region, Through 2025
    • Table 49: Global Market for Carbon Capture and Storage Technologies, by Country/Region, Through 2025
    • Table 50: Global Market for ICCs, by Category of Material, Through 2025
    • Table 51: Global Market for ICCs, by Chemistry of Material, Through 2025
    • Table 52: Global Market for Oxide ICCs, by Composition, Through 2025
    • Table 53: Global Market for Non-oxide ICCs, by Composition, Through 2025
    • Table 54: Global Market for ICCs, by Configuration, Through 2025
    • Table 55: Global Market for ICCs, by Application, Through 2025
    • Table 56: Global Market for ICCs, by Country/Region, Through 2025
    • Table 57: Leading Manufacturers of Ion-conducting Ceramics, 2020
    • Table 58: Leading Manufacturers of Oxide ICCs, 2020
    • Table 59: Leading Manufacturers of Non-oxide ICCs, 2020
    • Table 60: Leading Manufacturers of Glass-Ceramic ICCs, 2020
    • Table 61: Leading Manufacturers of ICCs, by Type of Material and Country/Region, 2020
    • Table 62: Other Relevant Industry Players, 2020
    • Table 63: U.S. Patents Related to Ion-conducting Ceramics, 2020
    • Table 64: U.S. Patents Related to Ion-conducting Ceramics, 2019
    • Table 65: U.S. Patents Related to Ion-conducting Ceramics, 2018
    • Table 66: U.S. Patent Trends for Ion-conducting Ceramics, Through 2020
    • Table 67: U.S. Patents Related to Ion-conducting Ceramics, by Country/Region, 2018-2020
    • Table 68: U.S. Patents Related to Ion-conducting Ceramics, by Country, 2018-2020
    • Table 69: Assignees of U.S. Patents Related to Ion-conducting Ceramics, 2018-2020
    • Table 70: U.S. Patents Related to Ion-conducting Ceramics, by Patent Category, 2018-2020
    • Table 71: U.S. Patents Related to Ion-conducting Ceramics, by Category of Material, 2018-2020
    • Table 72: U.S. Patents Related to Ion-conducting Ceramic, by Composition of Material, 2018-2020
    • Table 73: U.S. Patents related to Ion-conducting Ceramics, by Application, 2018-2020

List of Figures

  • Summary Figure: Global Market for Ion-conducting Ceramics, by Application, 2018-2025
    • Figure 1: Global Market Shares of Traditional and Technical Ceramics, by Category, 2025
    • Figure 2: Global Patent Applications and Patents Issued for Ion-conducting Ceramics, 1990-2019
    • Figure 3: Rare Earths in the Periodic Table
    • Figure 4: Perovskite Crystal Structure
    • Figure 5: Perovskite Types
    • Figure 6: Global Market for ICCs, by Application, 2018-2025
    • Figure 7: Global Market Shares of ICCs, by Category of Material, 2020
    • Figure 8: Global Market Shares of ICCs, by Chemistry of Material, 2020
    • Figure 9: Global Market Shares of Oxide ICCs, by Composition, 2020
    • Figure 10: Global Market Shares of Non-oxide ICCs, by Composition, 2020
    • Figure 11: Global Market Shares of ICCs Ceramics, by Configuration, 2020
    • Figure 12: Global Market Shares of ICCs, by Application, 2020
    • Figure 13: Global Market Shares of ICCs, by Country/Region, 2020
    • Figure 14: Global Market Shares of Fuel Cells, by Type, 2025
    • Figure 15: Global Market Shares of Solid Oxide Fuel Cells, by Application, 2025
    • Figure 16: Global Market Shares of Solid Oxide Fuel Cells, by Configuration, 2025
    • Figure 17: Global Market Shares of Solid Oxide Fuel Cells, by Country/Region 2025
    • Figure 18: Global Market Shares of Batteries, by Main Category, 2025
    • Figure 19: Global Market Shares of Solid-State Batteries, by Type, 2025
    • Figure 20: Global Market Shares of Solid-State Batteries, by Configuration, 2025
    • Figure 21: Global Market Shares of Solid-State Batteries, by Application, 2025
    • Figure 22: Global Market Shares of Solid-State Batteries, by Country/Region, 2025
    • Figure 23: Global Market Shares of Sensors, by Type, 2025
    • Figure 24: Global Market Shares of Gas Sensors, by Type, 2025
    • Figure 25: Global Market Shares of Gas Sensors, by Application, 2025
    • Figure 26: Global Market Shares of Gas Sensors, by Country/Region, 2025
    • Figure 27: Global Market Shares of Oxygen, by Country/Region, 2025
    • Figure 28: Global Market Shares of Syngas, by Country/Region, 2025
    • Figure 29: Global Market Shares of Methane, by Country/Region, 2025
    • Figure 30: Global Market Shares of Sodium-ion Batteries, by Country/Region, 2025
    • Figure 31: Global Market Shares of Membranes, by Country/Region, 2025
    • Figure 32: Global Market Shares of Carbon Capture and Storage Technologies, by Country/Region, 2025
    • Figure 33: Global Market Shares of ICCs, by Category of Material, 2025
    • Figure 34: Global Market Shares of ICCs, by Chemistry of Material, 2025
    • Figure 35: Global Market Shares of Oxide ICCs, by Composition, 2025
    • Figure 36: Global Market Shares of Non-oxide ICCs, by Composition, 2025
    • Figure 37: Global Market Shares of ICCs, by Configuration, 2025
    • Figure 38: Global Market Shares of ICCs, by Application, 2025
    • Figure 39: Global Market Shares of ICCs, by Country/Region, 2025
    • Figure 40: Leading Manufacturers of ICCs, by Type of Material and Country/Region, 2020
    • Figure 41: U.S. Patent Trends for Ion-conducting Ceramics, 2018-2020
    • Figure 42: U.S. Patent Shares of Ion-conducting Ceramics, by Country/Region, 2018-2020
    • Figure 43: U.S. Patent Shares of Ion-conducting Ceramics, by Country, 2018-2020
    • Figure 44: U.S. Patent Shares of Ion-conducting Ceramics, by Patent Category, 2018-2020
    • Figure 45: U.S. Patent Shares of Ion-conducting Ceramics, by Category of Material, 2018-2020
    • Figure 46: U.S. Patent Shares of Ion-conducting Ceramics, by Composition of Material, 2018-2020
    • Figure 47: U.S. Patent Shares of Ion-conducting Ceramics, by Application, 2018-2020
目次
Product Code: AVM197A

Highlights:

The global market for ion-conducting ceramics should grow from $183 million in 2020 to $338 million by 2025, at compound annual growth rate (CAGR) of 13.1% for the period of 2020-2025.

The energy segment market for ion-conducting ceramics should grow from $147 million in 2020 to $282 million by 2025, at a CAGR of 13.9% for the period of 2020-2025.

The sensors and instrumentation segment market for ion-conducting ceramics should grow from $32 million in 2020 to $46 million by 2025, at a CAGR of 7.5% for the period of 2020-2025.

Report Scope:

This report provides an updated review of Ion-conducting ceramics, including materials and production processes, and identifies current and emerging applications for these products.

BCC Research delineates the current market status for Ion-conducting ceramics, defines trends, and presents growth forecasts for the next five years. The ICC market is analyzed based on the following segments: material category, material chemistry, composition, configuration, application, and region. In addition, technological issues, including key events and the latest developments, are discussed.

More specifically, the market analysis conducted by BCC Research for this report is divided into five sections.

In the first section, an introduction to the topic and a historical review of ICC technology are provided, including an outline of recent events. In this section, current and emerging applications for ICCs are also identified and grouped in segments (chemical/petrochemical, environmental, energy, sensors and instrumentation, and others).

The second section provides a technological review of Ion-conducting ceramics. This section offers a detailed description of ICC materials, their properties, configurations, and typical fabrication methods. This section concludes with an analysis of the most important technological developments since 2017, including examples of significant patents recently issued or applied for. The chapter ends with a highlight of the most active research organizations operating in this field and their activities.

The third section entails a global market analysis for Ion-conducting ceramics. Global revenues (sales data in millions of dollars) are presented for each segment (material category, material chemistry, composition, configuration, application, and region), with actual data referring to the years 2018 and 2019, and estimates for 2020. Dollar figures refer to sales of only the Ion-conducting ceramic components, not the products containing these components (e.g., they refer to the ICC electrolyte in a solid-state battery). Revenues are at the manufacturing level.

The analysis of current revenues for Ion-conducting ceramics is followed by a detailed presentation of market growth trends, based on industry growth, technological trends, and regional trends. The third section concludes by providing projected revenues for Ion-conducting ceramics within each segment, together with forecast CAGRs for the period 2020 through 2025. Projected and forecast revenue values are in constant U.S. dollars, unadjusted for inflation.

In the fourth section of the study, which covers global industry structure, the report offers a list of the leading manufacturers of Ion-conducting ceramics, together with a description of their products. The analysis includes a description of the geographical distribution of these firms and an evaluation of other key industry players. Detailed company profiles of the top players are also provided.

The fifth and final section includes an analysis of recently issued U.S. patents, with a summary of patents related to ICC materials, fabrication methods, and applications. Patent analysis is performed by region, country, assignee, patent category, material category, material composition, and application.

Report Includes:

  • 47 data tables and 27 additional tables
  • A brief general outlook of the global markets for ion-conducting ceramics (ICCs) within the materials industry
  • Analyses of the global market trends with data corresponding to market size for 2018 and 2019, estimates for 2020, and projections of compound annual growth rates (CAGRs) through 2025
  • Identification of ceramic materials with high growth potential, their emerging applications, and details of current trends and future prospects which will lead to increasing demand for ICCs
  • Discussion of important technology updates and industry trends within each market segment
  • Evaluation of new technological developments related to ion-conducting ceramics, global R&D activities, and projected markets for such technologies
  • Patent study and analysis of the U.S. patent grants, with a summary of patents related to ICC materials, fabrication methods, and applications
  • Company profiles of the leading manufacturers and suppliers of ion-conducting ceramics. Major players including BASF, Corning, Kyocera Corp., Robert Bosch, Saint-Gobain, and Schott AG

Table of Contents

Chapter 1: Introduction

  • Study Goals and Objectives
  • Reasons for Doing This Study
  • Intended Audience
  • Scope of Report
  • Methodology and Information Sources
  • Market Breakdown
  • Analyst's Credentials
  • BCC Custom Research
  • Related BCC Research Reports

Chapter 2: Summary and Highlights

Chapter 3: Market and Technology Background

  • Ion-conducting Ceramics
  • Ceramics
  • Milestones in the History of Ion-conducting Ceramics and Recent Events
  • Current and Emerging Applications for Ion-conducting Ceramics
  • Chemical/Petrochemical/Environmental
  • Energy
  • Sensors and Instrumentation
  • Others

Chapter 4: Technology

  • Introduction
  • Materials
  • Ceramics
  • Fabrication Processes of Ion-conducting Ceramics
  • Solid-State Route
  • Sol-Gel Method
  • Tape Casting
  • Thin Films
  • Latest Technological Developments, 2017 to Present
  • High Conductivity NASICON Electrolyte
  • Ink Formulation for Battery Electrolyte
  • Hydroxide Ion-conducting Ceramic Separator
  • Low-Cost Fabrication Process for ICC with NASICON Structure
  • Other Relevant R&D Activities

Chapter 5: Global Markets

  • Outline of Analysis
  • Global Market Summary
  • Current Market Status
  • Market by Category of Material
  • Market by Chemistry of Material
  • Market for Oxide ICCs by Composition
  • Market for Non-oxide ICCs by Composition
  • Market by Configuration
  • Market by Application
  • Market by Region
  • Market Growth Trends
  • Energy
  • Sensors and Instrumentation
  • Chemical/Petrochemical/Environmental
  • Other Technological Trends
  • Regional Trends
  • Market Forecast
  • Market by Category of Material
  • Market by Chemistry of Material
  • Market for Oxide ICCs by Composition
  • Market for Non-oxide ICCs by Composition
  • Market by Configuration
  • Market by Application
  • Market by Region

Chapter 6: Global Industry Structure and Company Profiles

  • Leading Manufacturers of Ion-conducting Ceramics
  • Distribution of Leading Manufacturers by Type of Material and Region
  • Other Industry Players
  • Company Profiles
  • AMPCERA
  • BASF
  • CERAMIQUES TECHNIQUES INDUSTRIELLES
  • CHAOZHOU THREE-CIRCLE
  • COORSTEK
  • CORNING
  • ENLIGHTEN INNOVATIONS
  • ION STORAGE SYSTEMS
  • IONOTEC
  • JIANGSU GALAXI INDUSTRIAL
  • KERACEL
  • KYOCERA
  • LINDE
  • MURATA MANUFACTURING
  • NEXCERIS
  • NGK INSULATORS
  • OHARA
  • ROBERT BOSCH
  • SAINT-GOBAIN
  • SCHOTT

Chapter 7: Patent Analysis

  • Introduction
  • Summary of Recently Awarded Patents
  • General Trends
  • Trends by Country and Region
  • Trends by Assignee
  • Trends by Patent Category
  • Trends by Category of Material
  • Trends by Composition of Material
  • Trends by Application
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