能源工业的纳米技术

全球能源行业纳米技术市场预计将从 2023 年的 93 亿美元增长到 2028 年的 188 亿美元，预测期内復合年增长率为 15.0%。

北美地区预计将从 2023 年的 26 亿美元增长到 2028 年的 51 亿美元，复合年增长率为 14.2%。亚太地区预计将从2023年的38亿美元增长到2023年的60亿美元，复合年增长率为18.0%，到2028年将增长到88亿美元。

本报告审视了全球能源行业纳米技术市场，并提供了市场概况、市场影响因素和市场机会分析、市场规模趋势和预测、各个细分市场和地区的详细分析、新兴技术和发展趋势、专利趋势、竞争格局、主要参与者概况等。

报告内容包括：

• 全球能源行业纳米技术市场的深入概述和最新分析
• 市场收入数据的估计/预测/CAGR/市场趋势
• 当前市场规模估计/预测/按材料/用途/区域分類的市场份额分析
• 描述和量化每种纳米级材料和设备市场在能源生产或节能用途的潜力，并确定商业成功的关键要求
• 考虑推动产品需求和趋势的因素、按能源和地区分類的潜在销售和预测
• 确定目前已投入商业使用或到 2028 年具有商业化潜力的纳米技术用途
• 估计纳米材料和设备对全球能源预算的潜在影响
• ESG 在能源行业纳米技术中的重要性、实施 ESG 的主要挑战、公司的标准 ESG 实践，以及能源行业纳米技术中 ESG 考虑因素的现状和未来。
• 主要专利授权回顾、全球市场新动态
• 最近收购、合作伙伴关係、协议、协作和其他战略联盟的最新情况
• 识别主要利益相关者并分析公司的竞争格局：近期发展、财务业绩、部门盈利、业务整合等。
• 主要公司简介：A123 Systems LLC、The Chemours Co、Honeywell International Inc.、Nanosolar Inc.、Solaronix 等。

Highlights:

The global nanotechnology in energy applications market should reach $18.8 billion by 2028 from $9.3 billion in 2023 at a compound annual growth rate (CAGR) of 15.0% for the forecast period of 2023 to 2028.

North American nanotechnology in energy applications market is expected to grow from $2.6 billion in 2023 to $5.1 billion in 2028 at a CAGR of 14.2% for the forecast period of 2023 to 2028.

Asia-Pacific nanotechnology in energy applications market is expected to grow from $3.8 billion in 2023 to $8.8 billion in 2028 at a CAGR of 18.0% for the forecast period of 2023 to 2028.

Report Scope:

This report examines nanotechnology in energy industry applications. Definitive and detailed estimates and forecasts of the global market are provided, followed by a detailed analysis of the nanomaterials, energy application and regions. Ongoing market trends, growth drivers and challenges impeding the market are discussed. The report will analyze global nanotechnology in energy markets by material, applications and geography. It will also focus on the regulations and government-supported programs impacting this market. Regionally, the focus of study will be the markets of North America, Europe, Asia-Pacific, and the Rest of the World (RoW).

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 nonrenewable 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 almost negligible.

The report concentrates on nanotechnology applications that are currently in commercial use or are likely to be commercialized by 2028. Other applications that, while promising, are not likely to make it out of the laboratory by 2028, are not covered in depth. It is worth noting that, unlike the previous versions of this report, these figures do not include consumption of industrial enzymes, as enzymes are not included in most assessments of the overall nanomaterials market.

The report does not cover nanoscale materials and devices used to monitor and/or control the environmental impacts of energy production or uses such as nanomaterials 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 report NAN039C, Nanotechnology in Environmental Applications.

Using 2022 as the base year, the report provides estimated market data for the forecast period from 2023 to 2028. The market size for different regions (regions by application) will also be covered. The impact of COVID-19 was also considered when deriving market estimations. Sales value estimates are based on prices in the supply chain. Market-driving forces and industry structure are examined. International aspects are analyzed for all global regions.

In 2020, the growth rate of global manufacturing industries was severely affected by the COVID-19 pandemic. The pandemic halted progress in every regional economy. Governments took measures to contain the economic slowdown.

Report Includes:

• 33 tables and 62 additional tables
• Detailed overview and an up-to-date analysis of the global market for nanotechnology in energy applications
• Analyses of the global market trends, with market revenue (sales figures) for 2022, estimates for 2023, and projections of compound annual growth rates (CAGRs) through 2028
• Estimation of the actual market size and revenue forecast for global nanotechnology in energy applications market, and corresponding market share analysis based on material, application, and region
• Characterization and quantification of the market potential for each short-listed nanoscale materials and devices used in energy production or conservation applications, and identification of the main prerequisites that are still under development for commercial success
• A look at various factors involved in driving product demand in conjunction with trends, potential sales, and forecasts for major energy source markets and specific geographical markets
• Identification of nanotechnology applications that are currently in commercial use or are likely to be commercialized by 2028
• Estimation of potential net impact of nanoscale materials and devices on the global energy balance
• Detailed understanding of the importance of ESG in the nanotechnology in energy industry, key issues in implementing ESG principles, standard ESG practices by companies, as well as the current status and future of ESG considerations in nanotechnology for energy applications
• Review of key patent grants on nanotechnology applications in energy sector, and new and emerging developments in the global market
• Updated information on recent industry acquisitions, partnerships, agreements, collaborations, and other strategic alliances in the global nanotechnology in energy applications market
• Identification of major stakeholders and analysis of the company competitive landscape based on their recent developments, financial performance, segmental revenues, and operational integration
• Descriptive company profiles of the leading global players of the industry, including A123 Systems LLC, The Chemours Co., Honeywell International Inc., Nanosolar Inc. and Solaronix

Summary:

Nanotechnology contributes to the development of more efficient fuel cells by improving catalysts and electrode materials. Nanostructured catalysts, such as platinum nanoparticles, provide larger surface areas and enhance reaction kinetics, making fuel cells more efficient and cost-effective. As the world seeks cleaner and more sustainable energy alternatives, fuel cells are gaining attention due to their low carbon emissions and high energy efficiency. Governments, industries and consumers are increasingly adopting fuel cells as a clean energy solution to reduce greenhouse gas emissions and combat climate change.

Key drivers for the growth of the market for nanotechnology in energy applications over the forecast period are the strong shift in trend toward energy security applications of nanotechnology in fuel cells and developing transport infrastructure. Nanomaterials offer opportunities for mitigating environmental challenges in the energy sector. For example, nanomaterials can aid in capturing and storing carbon dioxide emissions, contributing to carbon sequestration and reducing greenhouse gas emissions. The development of nanomaterials for environmental remediation aligns with the sustainability goals of the energy sector.

The nanotechnology industry is characterized by intense rivalry among its major players. Rising competition is continuously helping in product differentiation, cost reduction and innovation, which fuels market development. The industry is driven by technological innovation, with companies constantly developing new and improved products with integration of nanotechnology. Acquisition, capacity expansion and technological collaborations are other trends observed in the industry ecosystem.

While nanotechnology offers immense potential for the energy sector, there are some challenges that need to be addressed for its successful implementation. The potential health and environmental impacts of nanomaterials is a significant concern. It is essential to understand and mitigate any risks associated with the production, use and disposal of nanomaterials in the energy sector. Robust safety standards, regulations and responsible manufacturing practices are necessary to address these concerns.

Table of Contents

Chapter 1 Introduction

• Overview
• Study Goals and Objectives
• Reasons for Doing This Study
• What's New in This Update?
• Scope of Report
• Information Sources
• Methodology
• Intended Audience
• Geographic Breakdown
• Analyst's Credentials
• BCC Custom Research
• Related BCC Research Reports

Chapter 2 Summary and Highlights

• Market Snapshot
• Market Highlights

Chapter 3 Market Overview

• Overview
• Nanomaterials
• Key Benefits of Nanomaterials in the Energy Sector
• Solid Nanoparticles
• Hollow Nanoparticles
• Nanoscale Thin Films
• Nanostructured Monolithics
• Nanocomposites
• Nanodevices
• Key Properties of Nanomaterials Relevant to the Energy Sector
• Energy Applications of Nanomaterials and Nanodevices
• Energy Production
• Energy Storage
• Technology Background
• Chemical Vapor Deposition (CVD)
• Sol-Gel Method
• Electrospinning
• Self-Assembly
• Physical Vapor Deposition (PVD)
• Bottom-Up Synthesis
• Template-Assisted Methods
• Atomic Layer Deposition (ALD)
• Hydrothermal Synthesis
• Emulsion Templating
• Arc Discharge and Laser Ablation
• Physical and Chemical Etching
• Mechanical Milling
• Electrochemical Deposition
• Life Cycle Assessment of Nanomaterials
• Regulatory Trends

Chapter 4 Market Dynamics

• Market Drivers
• Increasing Need for Energy Security
• Carbon Footprint Reduction
• Government Initiatives and Policies to Promote Nanotechnology in Energy Applications
• Oil and Gas Industry Growth in North America
• European Manufacturing
• Reaching Cost Reduction and Scalability
• Market Challenges and Restraints
• Environmental and Health Concerns Associated with Nanomaterials
• High Cost of Technology
• Intellectual Property (IP) and Patent Issues
• Value Chain Analysis
• Research and Development (R&D)
• Nanomaterial Manufacturing
• Component and Device Manufacturing
• System Integration and Assembly
• Distribution and Sales
• Installation and Deployment
• Operations and Maintenance
• End-of-Life Management
• Energy Sector Value Chain
• Energy Sources
• Energy Conversion
• Energy Distribution
• Energy Storage
• Energy Usage
• Impact of the Russian-Ukrainian War on the Market for Nanotechnology in Energy Applications

Chapter 5 Market by Material

• Overview
• Solid Nanoparticles
• Fabrication
• Types of Solid Nanoparticles with Energy Applications
• Emerging Utility
• Nanostructured Monolithics
• Zeolites
• Amorphous Alumina and Silica-Alumina
• Aerogels
• Nanoporous Membranes
• Emerging Utility
• Nanothin Films
• Fabrication
• Nanoscale Thin Films with Energy Applications
• Emerging Utility
• Nanocomposites
• Types of Nanocomposite Energy Applications
• Emerging Utility
• Nanosensors

Chapter 6 Market by Application

• Overview
• Petroleum Refining
• Nanotechnology in Refining
• Fuel Cells
• Fuel Cell Technologies
• Energy Storage Devices
• Types of Energy Storage Devices
• Solar Photovoltaics
• Solar Photovoltaic Technologies
• Nanomaterials Used in Solar Photovoltaics
• Synthetic Hydrocarbon Fuels
• Nanomaterials Used in Synthetic Fuels Production

Chapter 7 Market by Region

• Global Market for Nanotechnology in Energy Applications by Region
• North America
• Europe
• Asia-Pacific
• Rest of the World

Chapter 8 ESG Development

• Importance of ESG in the Market for Nanotechnology in Energy Applications
• ESG Ratings and Metrics: Understanding the Data
• Key ESG Issues in for Nanotechnology in Energy Applications
• ESG Practices for Nanotechnology in the Energy Industry
• Current Status of ESG in the Market for Nanotechnology in Energy Applications
• ESG Score Analysis
• Risk Scale, Exposure Scale and Management Scale
• Risk Scale
• Exposure Scale
• Management Scale
• Case Study: Examples of Successful ESG Implementation
• Environmental initiatives
• Social Initiatives
• Governance Initiatives
• Outcomes
• Investments
• Future of ESG: Emerging Trends and Opportunities
• Concluding Remarks from BCC

Chapter 9 Emerging Technologies and Developments

• Key Highlights
• Current Market Trends
• Key Trends in the Market
• Perovskite Solar Cells
• Nanophotonics and Light Harvesting
• 2D Materials for Energy Applications
• Nanogenerators for Energy Harvesting
• Nanofluids for Thermal Management
• Nanomaterials for Water Splitting
• Others
• New Product/New Technology Development
• Granted Patented Technologies

Chapter 10 Patent Analysis

• Patent Activity Analysis

Chapter 11 M&A and Venture Funding Outlook

• M&A Analysis
• Startup Funding in Nanotechnology in Energy Applications

Chapter 12 Competitive Intelligence

• Overview
• Company Market Shares of Nanotechnology in Energy Applications
• Strategic Analysis

Chapter 13 Company Profiles

• A123 SYSTEMS LLC
• ADVANCED NANO PRODUCTS CO. LTD.
• ALTAIRNANO
• ASPEN AEROGELS INC.
• BLACK DIAMOND STRUCTURES LLC
• CNANO TECHNOLOGY CO. LTD. (JIANGSU CNANO)
• THE CHEMOURS CO.
• FORGE NANO
• HE3DA LTD.
• HONEYWELL INTERNATIONAL INC.
• HYPERION CATALYSIS INTERNATIONAL INC.
• MACH I INC.
• MEDIA AND PROCESS TECHNOLOGY INC.
• NANOPHASE TECHNOLOGIES CORP.
• NANOSOLAR INC.
• NANO TECH CO. LTD.
• NEI CORP.
• QD SOLAR INC.
• SUZHOU SINLION BATTERY TECH CO. LTD.
• SOLARONIX SA
• ZEOLYST INTERNATIONAL

Chapter 14 Appendix: Abbreviations

List of Tables

• Summary Table : Global Market for Nanotechnology in Energy Applications, by Region, Through 2028
• Table 1 : Major Types of Nanomaterials
• Table 2 : Regulations, Standards and Frameworks for Nanotechnology in Energy Applications
• Table 3 : Global Market for Nanotechnology in Energy Applications, by Material, Through 2028
• Table 4 : Nanoparticle Production Processes
• Table 5 : Metal Nanoparticles in Energy Applications
• Table 6 : Complex Oxide Nanoparticles in Energy Applications
• Table 7 : Global Market for Solid Nanoparticles in Energy Applications, Through 2028
• Table 8 : Types of Nanostructured Monolithics in Energy Applications
• Table 9 : Global Market for Nanostructured Monolithics in Energy Applications, Through 2028
• Table 10 : Global Market for Nanothin Films in Energy Applications, Through 2028
• Table 11 : Nanocomposites in Energy Applications
• Table 12 : Global Market for Nanocomposites in Energy Applications, Through 2028
• Table 13 : Energy Applications of Nanosensors
• Table 14 : Global Market for Nanosensors in Energy Applications, Through 2028
• Table 15 : Global Market for Nanotechnology in Energy Applications, by Application Type, Through 2028
• Table 16 : Nanocatalyst Applications in Petroleum Refining/Petrochemicals
• Table 17 : Applications or Potential Applications of Nanomaterials/Nanotechnology in Petroleum Refining
• Table 18 : Global Market for Nanotechnology in Petroleum Refining Applications, by Region, Through 2028
• Table 19 : Global Market for Nanotechnology in Petroleum Refining Applications, by Material, Through 2028
• Table 20 : Fuel Cell's Application Type
• Table 21 : Global Market for Nanotechnology in Fuel Cell Applications, by Region, Through 2028
• Table 22 : Global Market for Nanotechnology in Fuel Cell Applications, by Material, Through 2028
• Table 23 : Classification of Energy Storage Systems
• Table 24 : Li-ion Battery Types
• Table 25 : Nanotechnologies Applied to Lithium-Ion Batteries-Key Trends
• Table 26 : Global Market for Nanotechnology in Energy Storage Device Applications, by Region, Through 2028
• Table 27 : Global Market for Nanotechnology in Energy Storage Device Applications, by Material, Through 2028
• Table 28 : Global Market for Nanotechnology in Solar Photovoltaic Applications, by Region, Through 2028
• Table 29 : Global Market for Nanotechnology in Solar Photovoltaic Applications, by Material, Through 2028
• Table 30 : Global Market for Solid Nanoparticles in Photovoltaic Applications, by Material, Through 2028
• Table 31 : Global Market for Nanocomposites in Photovoltaic Applications, by Material, Through 2028
• Table 32 : Global Market for Nanotechnology in Synthetic Hydrocarbon Fuel Applications, by Region, Through 2028
• Table 33 : Global Market for Nanotechnology in Synthetic Hydrocarbon Fuel Applications, by Material, Through 2028
• Table 34 : Global Market for Nanotechnology in Energy Applications, by Region, Through 2028
• Table 35 : North American Market for Nanotechnology in Energy Applications, by Application Type, Through 2028
• Table 36 : European Market for Nanotechnology in Energy Applications, by Application Type, Through 2028
• Table 37 : Asia-Pacific Market for Nanotechnology in Energy Applications, by Application Type, Through 2028
• Table 38 : Rest of the World Market for Nanotechnology in Energy Applications, by Application Type, Through 2028
• Table 39 : Data Interpretation
• Table 40 : ESG Carbon Footprint Issue Analysis
• Table 41 : ESG Water and Waste Reduction Issues Analysis
• Table 42 : ESG Diversity Issue Analysis
• Table 43 : ESG Employee Safety and Labor Practices Issue Analysis
• Table 44 : ESG Resource Efficiency and Emissions Issue Analysis
• Table 45 : ESG Sustainable Supply Chain Issue Analysis
• Table 46 : ESG Data Privacy and Security Issue Analysis
• Table 47 : ESG Score Analysis of Nanotechnology in Energy Applications Market
• Table 48 : Risk Scale, Exposure Scale and Management Scale
• Table 49 : New Product/New Technology Development, Global Nanotechnology in Energy Applications Market, 2020-2023
• Table 50 : Granted Patented Technologies, Nanotechnology in Energy Applications, 2020-2023
• Table 51 : Patents on Nanotechnology in Energy Applications, 2018-2023
• Table 52 : M&A in the Nanotechnology in Energy Applications Market, January 2020-April 2023
• Table 53 : Startup Funding in Nanotechnology in Energy Applications Market, by Amount Raised, January 2020-March 2023
• Table 54 : Global Market Shares of Nanotechnology in Energy Applications, by Leading Suppliers, 2022
• Table 55 : Strategy Dashboard: Nanotechnology in Energy Applications, 2020-2023
• Table 56 : A123 Systems LLC: Nanotechnology Product Portfolio
• Table 57 : Advanced Nano Products Co. Ltd.: Company Financials, 2022
• Table 58 : Advanced Nano Products Co. Ltd.: Recent Developments, 2023
• Table 59 : Advanced Nano Products Co. Ltd.: Product Portfolio
• Table 60 : Altairnano: Product Portfolio
• Table 61 : Aspen Aerogels Inc.: Company Financials, 2022
• Table 62 : Aspen Aerogels Inc.: Recent Developments, 2021 and 2022
• Table 63 : Aspen Aerogels ESG Framework
• Table 64 : Aspen Aerogels: Product Portfolio
• Table 65 : Black Diamond Structures LLC: Recent Developments, 2023
• Table 66 : Black Diamond Structures LLC: Product Portfolio
• Table 67 : Cnano Technology Co. Ltd.: Company Financials, 2022
• Table 68 : Cnano Technology Co. Ltd: Product Portfolio
• Table 69 : The Chemours Co.: Company Financials, 2022
• Table 70 : The Chemours Co.: Recent Developments, 2021 and 2022
• Table 71 : The Chemours Co.: Product Portfolio
• Table 72 : Forge Nano: Recent Developments, 2022 and 2023
• Table 73 : Forge Nano: Product Portfolio
• Table 74 : HE3DA: Recent Developments, 2021 and 2022
• Table 75 : HE3DA: Product Portfolio
• Table 76 : Honeywell International Inc.: Company Financials, 2022
• Table 77 : Honeywell International Inc.: Recent Developments, 2020-2023
• Table 78 : Honeywell UOP.: Product Portfolio
• Table 79 : Hyperion Catalysis International Inc.: Product Portfolio
• Table 80 : Mach I Inc.: Product Portfolio
• Table 81 : Media and Process Technology Inc.: Product Portfolio
• Table 82 : Nanophase Technologies Corp.: Company Financials, 2022
• Table 83 : Nanophase Technologies Corp.: Recent Developments, 2020
• Table 84 : Nanophase Technologies Corp.: Product Portfolio
• Table 85 : Nanosolar Inc.: Product Portfolio
• Table 86 : Nano Tech Co. Ltd.: Product Portfolio
• Table 87 : NEI Corp.: Recent Developments, 2020-2022
• Table 88 : NEI Corp.: Product Portfolio
• Table 89 : QD Solar Inc.: Product Portfolio
• Table 90 : Suzhou Sinlion Battery Tech Co. Ltd.: Product Portfolio
• Table 91 : Solaronix: Recent Developments, 2019
• Table 92 : Solaronix: Product Portfolio
• Table 93 : Zeolyst International Inc.: Product Portfolio
• Table 94 : Abbreviations Used in This Report