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エネルギー用途におけるナノテクノロジー

Nanotechnology in Energy Applications

発行 BCC Research 商品コード 819223
出版日 ページ情報 英文 126 Pages
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エネルギー用途におけるナノテクノロジー Nanotechnology in Energy Applications
出版日: 2019年04月02日 ページ情報: 英文 126 Pages
概要

世界のエネルギー用途におけるナノテクノロジー市場は2018年から2023年にかけて12.0%のCAGR (年間複合成長率) で推移し、2018年の57億米ドルから、2023年までに100億米ドルの規模に成長すると予測されています。

当レポートでは、世界のエネルギー用途におけるナノテクノロジー市場を調査し、ナノマテリアル・ナノデバイスの特徴や製造方法、全体的な市場規模・区分・成長動向、ナノスケールマテリアル・デバイスの主なエネルギー用途、使用されるナノマテリアル・ナノデバイスの種類、主なディベロッパー/メーカー、特許、および主要企業のプロファイルなどをまとめています。

第1章 イントロダクション

第2章 サマリー・ハイライト

第3章 市場・技術背景

  • ナノマテリアル・ナノデバイスの概説
  • ナノマテリアル・ナノデバイスの主なエネルギー用途
  • 近年の発展
  • 全体的な市場規模・区分

第4章 エネルギー用途向けナノテクノロジー

  • 固体ナノ粒子
  • 中空ナノ粒子
  • ナノスケール薄膜
  • ナノ構造モノリシック
  • ナノコンポジット
  • ナノデバイス

第5章 合成炭化水素燃料

  • 合成燃料の生産
  • 合成燃料の生産に使用されるナノマテリアル

第6章 石油精製

  • 精製工程
  • 精製触媒市場
  • 精製に使用されるナノマテリアル・ナノテクノロジー

第7章 太陽光発電

  • 太陽光発電技術
  • 太陽熱発電に使用されるナノマテリアル
  • ナノテクノロジー市場:地域別

第8章 燃料電池

  • 燃料電池技術
  • 燃料電池市場の分析
  • 燃料電池に使用されるナノマテリアル
  • ナノテクノロジー市場:地域別

第9章 エネルギーストレージデバイス

  • エネルギーストレージデバイスの種類
  • 電気ストレージデバイス:スーパーキャパシター

第10章 企業プロファイル

図表

List of Tables

  • Summary Table: Global Market for Nanotechnologies in Energy Applications, by Segment, Through 2023
    • Table 1: Major Types of Nanomaterials
    • Table 2: Global Energy-related Market for Nanotechnologies, Through 2023
    • Table 3: Energy-related Markets for Nanomaterials and Nanodevices, by Nanotechnology Type, Through 2023
    • Table 4: Energy-related Market Shares of Nanomaterials and Nanodevices, by Segment, 2017 vs. 2023
    • Table 5: Energy-related Markets for Nanomaterials and Nanodevices, by End Use, Through 2023
    • Table 6: Nanoparticle Production Processes
    • Table 7: Metal Nanoparticles in Energy Applications
    • Table 8: Simple Oxide Nanoparticles in Energy Applications
    • Table 9: Complex Oxide Nanoparticles in Energy Applications
    • Table 10: Types of Nanostructured Monolithics in Energy Applications
    • Table 11: Commercial Zeolites
    • Table 12: Nanocomposites in Energy Applications
    • Table 13: Energy Applications of Nanosensors
    • Table 14: Global Market for Solid Nanoparticles Used in Coal Liquefaction, Through 2023
    • Table 15: Global Production of Liquid Fuels, by Coal Liquefaction Process, Through 2023
    • Table 16: Global Market for Solid Nanoparticles Used in Coal Liquefaction, Through 2023
    • Table 17: Production of Liquid Fuels by Coal Liquefaction Using Indirect Processes, by Region, 2023
    • Table 18: Global Market for Nanotechnologies Used in Coal Liquefaction, by Region, Through 2023
    • Table 19: Global Market for Nanotechnologies Used in Petroleum Refining, Through 2023
    • Table 20: Global Market Shares of Refinery Nanomaterials, 2017 vs. 2023
    • Table 21: Nanocatalyst Applications in Petroleum Refining/Petrochemicals
    • Table 22: Global Market for Refinery Catalysts, by Manufacturing Process, Through 2023
    • Table 23: Global Market Volumes of Refinery Catalysts, by Manufacturing Process, Through 2023
    • Table 24: Applications or Potential Applications of Nanomaterials/Nanotechnology in Petroleum Refining
    • Table 25: Consumption of Non-nanostructured Monolithic Nanocatalysts in Refining Petroleum, Through 2023
    • Table 26: Global Consumption of Nanosensors in the Petroleum Refining Industry, Through 2023
    • Table 27: Global Market for Zeolite Oil Refining Catalysts, Through 2023
    • Table 28: Global Market for Alumina/Alumina-Silica Catalyst Supports for Oil Refining, Through 2023
    • Table 29: Global Market for Nanoporous Thin Film for Refinery Applications, Through 2023
    • Table 30: Global Market for Nanotechnologies Used in Petroleum Refining, by Region, Through 2023
    • Table 31: Rest of the World Market for Nanotechnologies Used in Petroleum Refining, by Region, Through 2023
    • Table 32: Global Market for Nanomaterials Used in Photovoltaic Applications, Through 2023
    • Table 33: Global Market for Solid Nanoparticles in Photovoltaic Applications, Through 2023
    • Table 34: Consumption of Dye Sensitive Solar Cells, Through 2023
    • Table 35: Global Consumption of TiO2 Nanoparticles in Dye-Sensitive Solar Cells, Through 2023
    • Table 36: Global Market for Quantum Dots, Through 2023
    • Table 37: Global Consumption of Epitaxially-grown Quantum Dots in PV Fabrication, Through 2023
    • Table 38: Global Market for Nanocomposites in Photovoltaic Applications, Through 2023
    • Table 39: Consumption of P3HT/CdSe Solar Cells, Through 2023
    • Table 40: Global Consumption of CdSe/P3HT Nanocomposite Materials in Solar Cells, Through 2023
    • Table 41: Global Consumption of MEH-PPV/PbS Nanocomposite Materials in Solar Cells, Through 2023
    • Table 42: Global Market for Nanotechnologies used in Solar Photovoltaics, by Region, Through 2023
    • Table 43: Global Market for Nanomaterials used in Fuel Cells, by Type, Through 2023
    • Table 44: Global Market Shares for Nanomaterials used in Fuel Cells, by Type, 2017-2023
    • Table 45: Fuel Cell's Application Type
    • Table 46: Global Shipments of Fuel Cells, by Application, Through 2023
    • Table 47: Global Shipments of Fuel Cells, by Application, Through 2023
    • Table 48: Global Shipments of Fuel Cells, by Technology Type, Through 2023
    • Table 49: Global Shipments of Fuel Cells, by Technology Type, Through 2023
    • Table 50: Global Shipments of Fuel Cells, by Region, Through 2023
    • Table 51: Global Shipments of Fuel Cells, by Region, Through 2023
    • Table 52: Publication Shares in Fuel Cell, by Countries, 2000-2016
    • Table 53: Publication Shares in Nanotechnology Applied to Fuel Cell, by Countries, 2000-2016
    • Table 54: Global Consumption of Complex Oxide Nanoparticles for SOFC Fuel Cell Applications, Through 2023
    • Table 55: Global Shipments of Nanoparticle Platinum Thin Film Materials in Fuel Cells, Through 2023
    • Table 56: Global Consumption of Nanostructured Platinum Thin Film Materials in Fuel Cells, Through 2023
    • Table 57: Global Shipment of Fuel Cell incorporating Nanoporous Polymer Membrane, Through 2023
    • Table 58: Global Consumption of Nanoporous Polymer Fuel Cell Membrane Materials, Through 2023
    • Table 59: Global Market Volume Shares of Fuel Cell Shipment, by Region, 2017-2023
    • Table 60: Global Market for Nanomaterials Used in Fuel Cells, by Region, Through 2023
    • Table 61: Nanomaterials Used in Energy Storage Devices, Through 2023
    • Table 62: Global Market Shares of Nanomaterials used in Energy Storage Devices, 2017-2023
    • Table 63: Global Market Volume Shares of Nanomaterials used in Energy Storage Devices, 2017-2023
    • Table 64: Classification of Energy Storage Systems
    • Table 65: Global Market Volume for Lithium Ion Batteries, by Type, Through 2023
    • Table 66: Global Market for Lithium Ion Batteries, by Type, Through 2023
    • Table 67: Li-ion Battery Types
    • Table 68: Global Storage Capacity of Lithium Ion Batteries, by Application, Through 2023
    • Table 69: Global Market Volumes of Lithium Ion Batteries, by Cathode Material, Through 2023
    • Table 70: Cathode Active Material Average Market Price
    • Table 71: Global LiB Market, by Cathode Materials, Through 2023
    • Table 72: Anode Active Material Average Market Price
    • Table 73: Global LiB Market, by Anode Materials, Through 2023
    • Table 74: Publication Shares in Nanotechnology for LiBs, by Countries, 2000-2016
    • Table 75: Patent Shares in Nanotechnology Applied to LiB, by Countries, 2000-2016
    • Table 76: Nanotechnologies applied to Lithium-Ion Batteries - Key Trends
    • Table 77: Nanomaterials used in Lithium-Ion Batteries, Through 2023
    • Table 78: Global Market for Supercapacitor, Through 2023
    • Table 79: Projected Consumption of Carbon Aerogels used in Supercapacitor, Through 2023

List of Figures

  • Summary Figure: Global Market for Nanotechnologies in Energy Applications, by Segment, 2017-2023
    • Figure 1: Trends in Global Energy-related Market for Nanotechnologies, 2017-2023
    • Figure 2: Number of Patent Granted for Nanotechnologies Applied to Synthetic Fuel Production, 2000-2016
    • Figure 3: Top 5 Assignees in Numbers of Publications of Granted Patents, 2000-2016
    • Figure 4: Global Market Shares of Refinery Nanomaterials, 2017 vs. 2023
    • Figure 5: Global Market Shares of Oil Refining Catalysts, by Manufacturing Process, 2017 vs. 2023
    • Figure 6: Chronological Development of the Absolute Number of Publications of Granted Patents Concerning Nano in Petroleum Refining 2000-2016
    • Figure 7: Top 10 Assignees in Numbers for Nano in Petroleum Refining, 2000-2016
    • Figure 8: Chronological Development of the Absolute Number of Publications of Granted Patents Concerning Zeolites for Cracking
    • Figure 9: Top Five Assignees in Numbers Concerning Zeolites, 2000-2016
    • Figure 10: Global Market for Zeolite Oil Refining Catalysts, 2017-2023
    • Figure 11: Global Market for Amorphous Alumina/Alumina-Silica Catalysts for Oil Refining, 2017-2023
    • Figure 12: Global Market Volume Shares of Refining Capacity, by Region, 2017-2023
    • Figure 13: Global Market for Nanotechnologies Used in Petroleum Refining, by Region, 2017-2023
    • Figure 14: Rest of the World Market for Nanotechnologies Used in Petroleum Refining, by Region, 2017-2023
    • Figure 15: Chronological Development of the Number Patents Granted for Nanotechnology Applications in Solar Photovoltaics, 2000-2016
    • Figure 16: Global Market Volume Shares of Solar Power Demand, by Region, 2017-2023
    • Figure 17: Global Market for Nanotechnologies used in Solar Photovoltaics, by Region, 2017-2023
    • Figure 18: Global Market Shares of Nanomaterials Used in Fuel Cells, by Type, 2017 vs. 2023
    • Figure 19: Fuel Cell Basic Principles
    • Figure 20: Global Shipments of Fuel Cells, by Technology Type, 2017-2023
    • Figure 21: Global Shipments of Fuel Cells, by Technology Type, 2017-2023
    • Figure 22: Chronological Development of the Absolute Number of Publications Concerning Nanotechnology for Fuel Cells, 2000-2016
    • Figure 23: Chronological Development of the Absolute Number of Publications of Granted Patents Concerning Nanotechnology for Fuel Cells, 2000-2016
    • Figure 24: Top Ten Current Assignees of Patents in Nanotechnology applied to Fuel Cells, 2000-2016
    • Figure 25: Global Consumption of Complex Oxide Nanoparticles for SOFC Fuel Cell Applications, 2017-2023
    • Figure 26: Global Consumption of Nanostructured Platinum Thin Film Materials in Fuel Cells, 2017-2023
    • Figure 27: Global Consumption of Nanoporous Polymer Fuel Cell Membrane Materials, 2017-2023
    • Figure 28: Ragone Plot for Energy-Storing Devices
    • Figure 29: Charging and Discharging Processes in Li-ion Batteries
    • Figure 30: Global Market Volume Shares of Lithium Ion Batteries, by Cathode Material, 2017 vs 2023
    • Figure 31: Chronological Development of the Absolute Number of Publications in LiB and Nanotechnology for LiB, 2000-2016
    • Figure 32: Chronological Development of the Absolute Number of Publications of Granted Patents in Nanotechnology for LiB, 2000-2016
    • Figure 33: Top Ten Assignees of Patents in Nanotechnology for LiB, in Numbers 2000-2016
    • Figure 34: Chronological Development of the Absolute Number of Publications of Granted Patents in Nanotechnology for Supercapacitor, 2000-2016
目次
Product Code: NAN044C

Report Highlights:

The global market for nanotechnologies in energy applications should grow from $5.7 billion in 2018 to reach $10.0 billion by 2023 at a compound annual growth rate (CAGR) of 12.0% for the period of 2018-2023.

Petroleum refining as a segment of nanotechnologies in energy applications market should grow from $5.1 billion in 2018 to reach $6.7 billion by 2023 at a CAGR of 5.8% for the period of 2018-2023.

Fuel cells as a segment of nanotechnologies in energy applications market should grow from $217.6 million in 2018 to reach $1.7 billion by 2023 at a CAGR of 51.6% for the period of 2018-2023.

Report Scope:

The report focuses on the global market for nanoscale materials (e.g., nanopowders, nanocomposites, nanoscale thin films and others) and devices (e.g., nanosensors) used in renewable and non-renewable energy production (e.g., petroleum refining, solar energy) and energy storage (e.g. batteries and fuel cells). In the other types of applications (e.g. energy transmission, energy conversion, energy end uses), nanotechnology consumption is negligible.

The report concentrates on nanotechnology applications that are currently in commercial use or are likely to be commercialized by 2023. Other applications that, while promising, are not likely to make it out of the laboratory by 2023, are not covered in depth.

The report does not cover nanoscale materials and devices used to monitor and/or control the environmental impacts of energy production, or use such as nanomaterials used in automotive catalytic converters. These technologies are outside the scope of this study and are covered in detail in several other BCC Research reports such as the report "NAN039C Nanotechnology in Environmental Applications."

The report format includes the following major elements -

  • Executive summary.
  • Description of nanomaterials and nanodevices used in energy applications, including properties and fabrication methods.
  • Overall market size, segmentation and growth trends.
  • Major energy applications of nanoscale materials and devices.
  • Description.
  • Types of nanomaterials/nanodevices used.
  • Principal developers/manufacturers.
  • Patents.
  • Journal publications.
  • Consumption of nanomaterials and nanodevices, 2018-2023.

Estimated values used are based on manufacturers' total revenues. Projected and forecasted revenue values are in constant U.S. dollars, unadjusted for inflation.

Report Includes:

  • 65 data tables and 15 additional tables
  • An overview of the global market for nanoscale materials (nanopowders, nanocomposites, nanoscale thin films, and others) and devices (nanosensors)
  • Analyses of global market trends, with data from 2017 to 2018, and projections of compound annual growth rates (CAGRs) through 2023
  • Discussion of nanotechnology applications that are currently in commercial use or are likely to be commercialized in the next five years
  • An in-depth technology review and a detailed patent analysis
  • Profiles of major companies of the industry, including Altair Nanotechnologies Inc., Dow Chemical Co., Honeywell UOP, Johnson Matthey, Plc and Mach 1 Inc.

Table of Contents

Chapter 1: Introduction

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

Chapter 2: Summary and Highlights

Chapter 3: Market and Technology Background

  • General Description of Nanomaterials and Nanodevices
    • Nanomaterials
    • Nanodevices
    • Special Properties
  • Major Energy Applications of Nanomaterials and Nanodevices
    • Energy Production
    • Energy Storage
  • Recent Developments
  • Overall Market Size and Segmentation
    • Market Size
    • Nanotechnology Segments
    • Applications and End Uses

Chapter 4: Nanotechnologies for Energy Applications

  • Solid Nanoparticles
    • Fabrication
    • Types of Solid Nanoparticles with Energy Applications
  • Hollow Nanoparticles
    • Fabrication
    • Hollow Nanoparticles in Energy Applications
  • Nanoscale Thin Films
    • Fabrication
    • Nanoscale Thin Films with Energy Applications
  • Nanostructured Monolithics
    • Zeolites
    • Amorphous Alumina and Silica-Alumina
    • Aerogels
    • Nanoporous Membranes
  • Nanocomposites
    • Fabrication
    • Types of Nanocomposite Energy Applications
  • Nanodevices
    • Nanosensors

Chapter 5: Synthetic Hydrocarbon Fuels

  • Synthetic Fuel Production
    • Direct Liquefaction Processes
    • Indirect Liquefaction Processes
  • Nanomaterials Used in Synthetic Fuels Production
    • Solid Nanoparticles
    • Patent Analysis

Chapter 6: Petroleum Refining

  • Refining Processes
    • Cracking
    • Catalytic Reforming
    • Hydrotreating
    • Heavy Oil Upgrading
    • Other Refinery Processes
  • Refinery Catalyst Market
  • Nanomaterials and Nanotechnologies Used in Refining
    • Nanomaterials/Nanotechnology other than Nanostructured Monolithics
    • Nanostructured Monolithics
    • Nanotechnology Market by Region

Chapter 7: Solar Photovoltaic

  • Solar Photovoltaic Technologies
    • Dye-sensitized Solar Cells
    • Quantum Dot PVs
    • Organic PVs
    • Hybrid Organic-Metal PVs
    • Hybrid Organic-Organic PVs
  • Nanomaterials Used in Solar Photovoltaics
    • Patent Analysis
    • Solid Nanoparticles
    • Nanocomposites
  • Nanotechnology Market by Region

Chapter 8: Fuel Cells

  • Fuel Cell Technologies
    • Alkaline Fuel Cells (AFCs)
    • Phosphoric Acid Fuel Cells (PAFCs)
    • Proton Exchange Membrane Fuel Cells (PEMFCs)
    • Direct Methanol Fuel Cells (DMFCs)
    • Solid Oxide Fuel Cells (SOFCs)
    • Molten Carbonate Fuel Cells (MCFCs)
  • Fuel Cell Market Analysis
  • Nanomaterials Used in Fuel Cells
    • Bibliometric Analysis
    • Patent Analysis
    • Solid Nanoparticles
    • Nanoscale Thin Films
    • Nanoscale Monolithics
  • Nanotechnology Market by Region

Chapter 9: Energy Storage Devices

  • Types of Energy Storage Devices
    • Electrochemical Storage Devices-Lithium-ion Batteries
    • Lithium-ion Batteries-Technology
    • Lithium-ion Batteries-Market Analysis
    • Nanomaterials Used in Li-ion Batteries
  • Electrical Storage Devices-Supercapacitor
    • Market Analysis
    • Nanomaterials Used in Supercapacitors

Chapter 10: Company Profiles

  • A123 SYSTEM LLC
  • ALBEMARLE CORP.
  • ALPS ELECTRIC CO. LTD.
  • ALTAIR NANOTECHNOLOGIES INC.
  • APPLIED NANOTECH INC.
  • ASPEN AEROGELS INC.
  • BASF AG
  • BAYER MATERIALSCIENCE AG
  • BLACK DIAMOND STRUCTURES LLC
  • BYD CO. LTD.
  • CNANO TECHNOLOGY LTD.
  • COOPER ELECTRONIC TECHNOLOGIES.
  • CYRIUM TECHNOLOGIES
  • DOW CHEMICAL CO.
  • E.I. DU PONT DE NEMOURS AND CO.
  • ENER1 INC.
  • EXXONMOBIL CORP.
  • FORGE NANO
  • HE3DA LTD.
  • HEADWATERS TECHNOLOGY INNOVATION GROUP INC.
  • HONEYWELL UOP
  • HYPERION CATALYSIS INTERNATIONAL INC.
  • INTELLIGENT ENERGY LTD.
  • JOHNSON MATTHEY, PLC
  • LONG POWER SYSTEMS (SUZHOU) CO, LTD.
  • MACH 1 INC.
  • MEDIA AND PROCESS TECHNOLOGY INC.
  • MEMBRANE TECHNOLOGY AND RESEARCH INC.
  • MPOWER TECHNOLOGY INC.
  • MULLEN TECHNOLOGY INC.
  • NANOGRAM CORP.
  • NANOSOLAR INC.
  • NANOSYS INC.
  • NEI CORP.
  • NEXCERIS LLC
  • OPTIMUMNANO ENERGY CO. LTD.
  • OPVIUS GMBH
  • POLYPLUS
  • QD SOLAR INC.
  • RHODIA SA
  • SIM COMPOSITES INC.
  • SINLION BATTERY TECH. CO.
  • SINOPEC GROUP
  • SOLARONIX
  • SOLTERRA RENEWABLE TECHNOLOGIES INC.
  • VALENCE TECHNOLOGY INC.
  • ZEOLYST INTERNATIONAL
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