샘플 요청 목록에 추가
나노테크놀러지는 에너지, 전자, 환경보호, 자원관리, 의료 등 시장에서 산업, 환경, 사회문제에 대한 해결책을 제공할 수 있는 파괴적인 혁신과 혁신을 가져옵니다. 나노 물질은 벌크 물질과 크게 다른 뛰어난 자기적, 전기적, 광학적, 기계적, 촉매적 특성을 가진 물질을 생성할 수 있습니다. 이러한 특성은 크기, 모양, 합성 조건 및 적절한 기능 부여를 정밀하게 제어하여 원하는 대로 조정할 수 있습니다.
나노테크놀러지 기반 장비와 공정, 그리고 산업용 나노물질(ENM)은 모든 주요 시장의 제품에 통합되고 있습니다. 나노 물질은 자외선 차단제(이산화 티타늄/산화 아연 나노입자), 스포츠 용품(탄소 나노 튜브, 그래 핀 등), 전도성 배터리 첨가제(탄소 나노 튜브, 그래 핀 등), 자동차 복합재료(나노 튜브, 그래 핀, 셀룰로오스 나노섬유 등), 고화질 TV(양자점)와 같은 제품에서 점점 더 많은 부분을 차지하고 있습니다, 셀룰로오스 나노섬유 등), 고화질 TV(양자점) 등의 제품에 이미 많이 사용되고 있습니다. 현재와 차세대 배터리, 바이오 의료용 영상, 플렉서블 일렉트로닉스에 활용되는 나노소재에 대한 산업계의 지속적인 수요로 인해 그 사용은 계속 증가하고 있습니다. 또한 부식 방지, 방수 및 방습, 마찰 감소, 방오 및 항균, 자가세정, 내열 및 내방사선, 열 관리 등 용도의 기능성을 향상시키는 특성을 가지고 있으며, 지속가능성 문제에도 기여하고 있습니다.
나노테크놀러지의 미래는 현재의 용도를 훨씬 뛰어넘어 확장되고 있습니다. 새로운 동향은 여러 분야에 걸친 기술의 융합과 다학제적 융합이 진행되고 있음을 보여주고 있습니다. 지속가능한 나노 기술, AI와의 통합, 양자 기술의 확장, 보다 정교한 분자 공학적 접근 방식은 우리의 기술 환경을 재구성할 것을 약속합니다. 도전은 여전히 큽니다. 높은 개발 비용, 복잡한 규제 환경, 안전에 대한 우려, 확장의 어려움 등이 현재 장애물로 작용하고 있습니다. 그러나 복잡한 기술적 문제를 해결할 수 있는 잠재력을 가지고 있으므로 막대한 투자와 연구 활동이 계속되고 있습니다.
세계의 나노테크놀러지 시장에 대해 조사분석했으며, 나노재료의 특성, 합성 방법, 최종 용도 시장에서의 용도, 기술 준비도, 생산능력, 지역의 수요, 가격, 경쟁 구도 시장 촉진요인/동향/과제, 2035년까지의 매출 예측 등을 제공하고 있습니다.
목차 제1장 개요
나노테크놀러지와 나노재료의 정의
나노재료의 유형과 분류
산업 나노재료의 생산, 제조, 수요
나노재료의 환경 배출
나노 제작
나노일렉트로닉스
나노바이오테크놀러지
나노 화학
나노포토닉스
환경 나노테크놀러지
시장이 해결해야 할 과제
향후 전망
제2장 세계의 나노재료 시장
탄소계 나노재료
금속, 금속 산화물 나노입자
바이오 기반 나노재료
기타 유형
제3장 나노테크놀러지와 나노재료 시장
전자, 반도체
에너지 저장
항공우주, 항공
자동차
의료, 생명과학
코팅
복합재료
전도성 잉크
건설, 인프라
화장품, 퍼스널케어
환경
식품, 농업
가사, 위생
윤활유
해사
석유, 가스, 광업
플라스틱, 포장
고무
보안, 방위
센서
태양광발전
텍스타일, 의류
공구, 제조
3D 프린팅/부가 제조
접착제, 실란트
기타 시장
제4장 조사 방법
제5장 참고 문헌
KSA
Nanotechnology offers disruptive breakthroughs and innovations that can provide solutions to industrial, environmental and societal challenges in markets including energy, electronics, environmental protection, resource management and healthcare. Nanomaterials can be produced with outstanding magnetic, electrical, optical, mechanical, and catalytic properties that are substantially different from their bulk counterparts. These properties can be tuned as desired via precisely controlling the size, shape, synthesis conditions, and appropriate functionalization.
Nanotech-based devices & processes and engineered nanomaterials (ENMs) have been incorporated in products across all major markets. Nanomaterials are increasingly becoming part of our daily lives and are already heavily used in products such as sunscreens (titanium dioxide/zinc oxide nanoparticles), sporting goods (carbon nanotubes, graphene etc.), conductive battery additives (carbon nanotubes, graphene etc.), automotive composites (nanotubes, graphene, cellulose nanofibers etc.) and high-definition TVs (quantum dots). There use is only going to increase due to continued industry demand for nanomaterials for current and next generation batteries, biomedical imaging and flexible electronics. They are also contributing to sustainability challenges as they offer properties that improve an application's functionality, including corrosion protection, water and moisture protection, friction reduction, antifouling and antibacterial properties, self-cleaning, heat and radiation resistance and thermal management.
The future of nanotechnology extends far beyond current applications. Emerging trends suggest increasing interdisciplinary convergence, with technologies blending across multiple domains. Sustainable nanotechnologies, integration with artificial intelligence, expansion of quantum technologies, and more sophisticated molecular engineering approaches promise to reshape our technological landscape. Challenges remain significant. High development costs, complex regulatory environments, safety concerns, and scaling difficulties present ongoing obstacles. However, the potential for solving complex technological challenges continues to drive massive investment and research efforts.
At over 880 pages, "The Global Nanotechnology Market 2025-2035" is an in-depth analysis of the opportunities afforded by these remarkable materials and technologies. It covers 40 major types of nanomaterials such as cellulose nanofibers, graphene, carbon nanotubes, silver nanoparticles, titanium dioxide nanoparticles and more. The report analyzes nanomaterial properties, synthesis methods, applications in end-use markets, technology readiness levels, production capacities, regional demand, pricing, competitive landscape, market drivers/trends/challenges and revenue forecasts to 2035.
End-use industry application analysis is provided in sectors such as coatings, composites, electronics, energy storage, automotive, aerospace, sensors, medical, filtration, agriculture, food, household care and more.
Report contents include:
In-depth analysis of the global market for nanotechnology and engineered nanomaterials based products.
Nanotechnology's role in sustainability and sustainable development.
Comprehensive listings of applications and products.
Analysis of current market for nanotech/nanomaterials-enabled products and forecasts and market outlook to 2035,.
Global demand for nanomaterials globally (e.g. Carbon nanomaterials, quantum dots, metal and metal oxide nanomaterials and other nanomaterials) in terms of volume (tonnes).
Demand for nanomaterial-based products in globally by market (e.g. electronics, automotive, batteries, consumer goods, medicine, coatings and other relevant markets) in terms of revenues (Millions USD).
Assessment of competitive landscape, commercial prospects, applications, demand by market and region, stage of commercialization, prices and producer profiles.
Technology roadmaps for engineered nanomaterials
Technology roadmaps for end user markets.
Exploration of Engineered nanomaterials and nanotech-enabled products market structures and value chains.
Assessment of end user markets for nanotechnology and Engineered nanomaterials including market drivers and trends, applications, market opportunity, market challenges and application and product developer profiles.
Markets covered include a
electronics & semiconductors
energy storage
healthcare & life sciences
coatings & paints
composites
adhesives & sealants
aerospace and aviation
automotive
conductive inks
construction & infrastructure
cosmetics & personal care
filtration
environmental
food and agriculture
household care and sanitary
lighting
lubricants
marine, oil, gas and mining
plastics and packaging
rubber
security and defence
sensors
photovoltaics
tools & manufacturing
textiles and apparel
3D printing/additive manufacturing
catalysts
thermoelectrics.
Unique assessment tools for the nanomaterials market, end user applications, economic impact, addressable markets and market challenges to provide the complete picture of where the real commercial opportunities in nanotechnology and nanomaterials are. Nanomaterials covered include:
Carbon-based nanomaterials including Carbon Nanotubes, Carbon Nanofibers, Fullerenes, Graphene, Nanodiamonds, Graphene quantum dots.
Metal and metal oxide nanoparticles including Silicon Oxide Nanoparticles, Silver Nanoparticles, Titanium Dioxide (TiO2) Nanoparticles, Zinc Oxide Nanoparticles, Zirconium Oxide Nanoparticles, Aluminium Oxide Nanoparticles, Antimony Tin Oxide (ATO) Nanoparticles, Bismuth Oxide Nanoparticles, Cerium Oxide Nanoparticles, Cobalt Oxide Nanoparticles, Copper Oxide Nanoparticles, Gold Nanoparticles, Iron Oxide Nanoparticles, Magnesium Oxide Nanoparticles, Manganese Oxide Nanoparticles, Nickel Nanoparticles, Erbium Oxide Nanoparticles.
Bio-base d nanomaterials including Cellulose Nanofibers, Cellullose Nanocrystals, Bacterial Nanocellulose, Chitin and Chitosan Nanoparticles, Lignin Nanoparticles, Protein-based Nanoparticles, Lipid-based Nanoparticles, Alginate Nanoparticles.
Other types including Dendrimers, Nanoclays, Polymer Nanofibers, Quantum Dots, Boron Nitride nanotubes (BNNTs), Molybdenum Nanoparticles, Perovskite Quantum Dots.
Main application and product opportunities in nanotechnology and nanomaterials.
Profiles of over 1,600 nanotechnology and engineered nanomaterials producers and product developers. Companies profiled include Actnano, AlterBiota, Applied Materials, Archer Materials, ARIZ Precision Medicine, Arkema, Black Swan, Blueberry Therapeutics, Cabot Corporation, Canatu, Carbice Corp., Carbon Upcycling Technologies, Cello Therapeutics, C2CNT LLC, CHASM Advanced Materials, Chiral, ColossusTex, COnovate, CrayoNano AS, Daicel Corporation, Denso, Direct-C, Gerdau Graphene, GIT Coatings, Graphene Trace, GS Alliance Co. Ltd., GS Bavaria GmbH, Elmarco, Evercloak, Evove, FabricNano, Foshan Nanotech, Huntsman Corporation, HydroGraph, Levidian, LG Chem, LianBio, Lyten, Mechnano, Meijo Nano Carbon, Nanoco Group, Nanofiber Quantum Technologies, Nanoform Finland, Nanolayr, Nanosys, Nanotech Energy, Nemo Nanomaterials, Nfinite Nanotech, Obayashi Corporation, OCSiAl, Oxford Nanopore Technologies, Paragraf, Pixelligent Technologies, Promethean Particles, Radetec Diagnostics, Rimere, RTX Corporation, Smart Nanotubes Technologies, Solidion Technology, SuperBranche, TrimTabs, 2D Fab, Zeon Corporation and Zylo Therapeutics.
TABLE OF CONTENTS 1. EXECUTIVE SUMMARY
1.1. Defining Nanotechnology and Nanomaterials
1.1.1. Properties and advantages of nanomaterials
1.2. Types and Classifications of Nanomaterials
1.3. Production, manufacturing and demand for engineered nanomaterials
1.3.1. Synthesis & production
1.4. Environmental emissions of nanomaterials
1.4.1. Emissions and exposures of nanomaterials
1.4.2. Life cycle assessment
1.4.3. Nanomaterials for Carbon Capture and Utilization
1.5. Nanofabrication
1.5.1. Bottom-up Fabrication
1.5.2. Top-down Fabrication
1.5.3. Molecular Self-Assembly
1.5.4. Nanolithography
1.5.5. Electron Beam Lithography
1.5.6. Atomic Layer Deposition
1.6. Nanoelectronics
1.6.1. Nanoscale Transistors
1.6.2. Molecular Electronics
1.6.3. Quantum Computing Components
1.6.4. Nanoprocessors
1.6.5. Nanoscale Memory Devices
1.6.6. Spintronics
1.7. Nanobiotechnology
1.7.1. Nanomedicine
1.7.2. Drug Delivery Systems
1.7.3. Biosensors
1.7.4. Tissue Engineering
1.7.5. Molecular Imaging
1.7.6. Genetic Engineering Tools
1.8. Nanochemistry
1.8.1. Catalysis
1.8.2. Molecular Recognition
1.8.3. Nanoscale Chemical Reactions
1.8.4. Precision Chemical Synthesis
1.8.5. Nanocatalysts (300 words):
1.8.6. Molecular Imprinting
1.9. Nanophotonics
1.9.1. Metamaterials
1.9.2. Plasmonic Devices
1.9.3. Nanoscale Optical Circuits
1.9.4. Quantum Optical Technologies
1.9.5. Light-Matter Interactions
1.9.6. Nano-Optics
1.10. Environmental Nanotechnology
1.10.1. Water Purification
1.10.2. Pollution Detection
1.10.3. Environmental Remediation
1.10.4. Renewable Energy Technologies
1.10.5. Carbon Capture
1.10.6. Sustainable Materials
1.11. Market challenges
1.12. Future Outlook
2. THE GLOBAL NANOMATERIALS MARKET
2.1. CARBON-BASED NANOMATERIALS
2.1.1. Carbon nanofibers
2.1.1.1. Market overview
2.1.1.2. Properties
2.1.1.3. Synthesis
2.1.1.4. Markets and applications
2.1.1.5. Technology roadmap
2.1.1.6. Current and projected market 2022-2035
2.1.1.6.1. Volume (tonnes)
2.1.1.6.2. Revenues
2.1.1.6.3. Region (Tonnes)
2.1.1.7. Producers
2.1.2. Fullerenes
2.1.2.1. Market overview
2.1.2.2. Properties
2.1.2.3. Products
2.1.2.4. Markets and applications
2.1.2.5. Technology Roadmap
2.1.2.6. Current and projected market 2022-2035
2.1.2.6.1. Volume (tonnes)
2.1.2.6.2. Revenues
2.1.2.6.3. Region (Tonnes)
2.1.2.7. Producers
2.1.3. Graphene
2.1.3.1. Market overview
2.1.3.2. Properties
2.1.3.3. Markets and applications
2.1.3.4. Technology Roadmap
2.1.3.5. Products
2.1.3.6. Current and projected market 2022-2035
2.1.3.6.1. Volume (tonnes)
2.1.3.6.2. Revenues (US$)
2.1.3.6.3. Region (Tonnes)
2.1.3.7. Producers
2.1.4. Multi-walled carbon nanotubes
2.1.4.1. Market overview
2.1.4.2. Properties
2.1.4.3. Markets and applications
2.1.4.4. Technology Roadmap
2.1.4.5. Current and projected market 2022-2035
2.1.4.5.1. Volume (tonnes)
2.1.4.5.2. Revenues (US$)
2.1.4.5.3. Region (Tonnes)
2.1.4.6. Producers
2.1.5. Nanodiamonds
2.1.5.1. Properties
2.1.5.2. Markets and applications
2.1.5.3. Technology Readiness Level (TRL)
2.1.5.4. Current and projected market 2022-2035
2.1.5.4.1. Volume (tonnes)
2.1.5.4.2. Revenues (Million US$)
2.1.5.4.3. Region (Tonnes)
2.1.5.5. Producers
2.1.6. Single-walled carbon nanotubes (SWCNT)
2.1.6.1. Market overview
2.1.6.2. Properties
2.1.6.3. Markets and applications
2.1.6.4. Technology Roadmap
2.1.6.5. Current and projected market 2022-2035
2.1.6.5.1. Volume (tonnes)
2.1.6.5.2. Revenues (Million US$)
2.1.6.5.3. Region (Tonnes)
2.1.6.6. Producers
2.1.7. Graphene quantum dots
2.1.7.1. Composition
2.1.7.2. Comparison to quantum dots
2.1.7.3. Properties
2.1.7.4. Synthesis
2.1.7.4.1. Top-down method
2.1.7.4.2. Bottom-up method
2.1.7.4.3. Comparison of synthesis methods
2.1.7.5. Markets and applications
2.1.7.6. Current and projected market 2022-2035
2.1.7.6.1. Volume (tonnes)
2.1.7.6.2. Revenues (Million US$)
2.1.7.6.3. Region (Tonnes)
2.1.7.7. Producers
2.2. METAL AND METAL OXIDE NANOPARTICLES
2.2.1. Aluminium Oxide Nanoparticles
2.2.1.1. Market overview
2.2.1.2. Production methods
2.2.1.3. Properties
2.2.1.4. Markets and applications
2.2.1.5. Technology Readiness Level (TRL)
2.2.1.6. Current and projected market 2022-2035
2.2.1.6.1. Volume (tonnes)
2.2.1.6.2. Revenues (Million US$)
2.2.1.6.3. Region (Tonnes)
2.2.1.7. Producers
2.2.2. Antimony Tin Oxide (ATO) Nanoparticles
2.2.2.1. Market overview
2.2.2.2. Properties
2.2.2.3. Markets and applications
2.2.2.4. Technology Roadmap
2.2.2.5. Current and projected market 2022-2035
2.2.2.5.1. Volume (tonnes)
2.2.2.5.2. Revenues (Million US$)
2.2.2.5.3. Region (Tonnes)
2.2.2.6. Producers
2.2.3. Bismuth Oxide Nanoparticles
2.2.3.1. Market overview
2.2.3.2. Properties
2.2.3.3. Markets and applications
2.2.3.4. Technology Roadmap
2.2.3.5. Current and projected market 2022-2035
2.2.3.5.1. Volume (tonnes)
2.2.3.5.2. Revenues (Million US$)
2.2.3.5.3. Region (Tonnes)
2.2.3.6. Producers
2.2.4. Cerium Oxide Nanoparticles
2.2.4.1. Market overview
2.2.4.2. Properties
2.2.4.3. Markets and applications
2.2.4.4. Technology Roadmap
2.2.4.5. Current and projected market 2022-2035
2.2.4.5.1. Volume (tonnes)
2.2.4.5.2. Revenues (Million US$)
2.2.4.5.3. Region (Tonnes)
2.2.4.6. Producers
2.2.5. Cobalt Oxide Nanoparticles
2.2.5.1. Market overview
2.2.5.2. Properties
2.2.5.3. Markets and applications
2.2.5.4. Technology Roadmap
2.2.5.5. Current and projected market 2022-2035
2.2.5.5.1. Revenues (Million US$)
2.2.5.5.2. Region (Tonnes)
2.2.5.6. Producers
2.2.6. Copper Oxide Nanoparticles
2.2.6.1. Market overview
2.2.6.2. Properties
2.2.6.3. Markets and applications
2.2.6.4. Technology Roadmap
2.2.6.5. Current and projected market 2022-2035
2.2.6.5.1. Volume (tonnes)
2.2.6.5.2. Revenues (Million US$)
2.2.6.5.3. Region (Tonnes)
2.2.6.6. Producers
2.2.7. Gold Nanoparticles
2.2.7.1. Market overview
2.2.7.2. Properties
2.2.7.3. Markets and applications
2.2.7.4. Technology Roadmap
2.2.7.5. Current and projected market 2022-2035
2.2.7.5.1. Volume (tonnes)
2.2.7.5.2. Revenues (Million US$)
2.2.7.5.3. Region (Tonnes)
2.2.7.6. Producers
2.2.8. Iron Oxide Nanoparticles
2.2.8.1. Market overview
2.2.8.2. Properties
2.2.8.3. Markets and applications
2.2.8.4. Technology Roadmap
2.2.8.5. Current and projected market 2022-2035
2.2.8.5.1. Volume (tonnes)
2.2.8.5.2. Revenues (Million US$)
2.2.8.5.3. Region (Tonnes)
2.2.8.6. Producers
2.2.9. Magnesium Oxide Nanoparticles
2.2.9.1. Market overview
2.2.9.2. Properties
2.2.9.3. Markets and applications
2.2.9.4. Technology Roadmap
2.2.9.5. Current and projected market 2022-2035
2.2.9.5.1. Volume (tonnes)
2.2.9.5.2. Revenues (Million US$)
2.2.9.5.3. Region (Tonnes)
2.2.9.6. Producers
2.2.10. Manganese Oxide Nanoparticles
2.2.10.1. Market overview
2.2.10.2. Properties
2.2.10.3. Markets and applications
2.2.10.4. Technology Roadmap
2.2.10.5. Current and projected market 2022-2035
2.2.10.5.1. Volume (tonnes)
2.2.10.5.2. Revenues (Million US$)
2.2.10.5.3. Region (Tonnes)
2.2.10.6. Producers
2.2.11. Nickel nanoparticles
2.2.11.1. Market overview
2.2.11.2. Properties
2.2.11.3. Markets and applications
2.2.11.4. Technology Roadmap
2.2.11.5. Current and projected market 2022-2035
2.2.11.5.1. Volume (tonnes)
2.2.11.5.2. Revenues (Million US$)
2.2.11.5.3. Region (Tonnes)
2.2.11.6. Producers
2.2.12. Silicon oxide nanoparticles
2.2.12.1. Market overview
2.2.12.2. Properties
2.2.12.3. Markets and applications
2.2.12.4. Technology Roadmap
2.2.12.5. Current and projected market 2022-2035
2.2.12.5.1. Volume (tonnes)
2.2.12.5.2. Revenues (Million US$)
2.2.12.5.3. Region (Tonnes)
2.2.12.6. Producers
2.2.13. Silver nanoparticles
2.2.13.1. Market overview
2.2.13.2. Properties
2.2.13.3. Markets and applications
2.2.13.4. Technology Roadmap
2.2.13.5. Current and projected market 2022-2035
2.2.13.5.1. Volume (tonnes)
2.2.13.5.2. Revenues (Million US$)
2.2.13.5.3. Region (Tonnes)
2.2.13.6. Producers
2.2.14. Titanium dioxide (TiO2) nanoparticles
2.2.14.1. Market overview
2.2.14.2. Properties
2.2.14.3. Markets and applications
2.2.14.4. Technology Roadmap
2.2.14.5. Current and projected market 2022-2035
2.2.14.5.1. Volume (tonnes)
2.2.14.5.2. Revenues (Million US$)
2.2.14.5.3. Region (Tonnes)
2.2.14.6. Producers
2.2.15. Zinc oxide nanoparticles
2.2.15.1. Market overview
2.2.15.2. Properties
2.2.15.3. Markets and applications
2.2.15.4. Technology Roadmap
2.2.15.5. Current and projected market 2022-2035
2.2.15.5.1. Volume (tonnes)
2.2.15.5.2. Revenues (Million US$)
2.2.15.5.3. Region (Tonnes)
2.2.15.6. Producers
2.2.16. Zirconium oxide nanoparticles
2.2.16.1. Market overview
2.2.16.2. Properties
2.2.16.3. Markets and applications
2.2.16.4. Technology Roadmap
2.2.16.5. Current and projected market 2022-2035
2.2.16.5.1. Volume (tonnes)
2.2.16.5.2. Revenues (Million US$)
2.2.16.5.3. Region (Tonnes)
2.2.16.6. Producers
2.3. BIO-BASED NANOMATERIALS
2.3.1. Cellulose nanofibers
2.3.1.1. Market overview
2.3.1.2. Properties
2.3.1.3. Markets and applications
2.3.1.4. Products
2.3.1.5. Technology Roadmap
2.3.1.6. Current and projected market 2022-2035
2.3.1.6.1. Volume (tonnes)
2.3.1.6.2. Revenues (Million US$)
2.3.1.6.3. Region (Tonnes)
2.3.1.7. Producers
2.3.2. Cellullose nanocrystals
2.3.2.1. Synthesis
2.3.2.2. Properties
2.3.2.3. Markets and applications
2.3.2.4. Technology Roadmap
2.3.2.5. Current and projected market 2022-2035
2.3.2.5.1. Volume (tonnes)
2.3.2.5.2. Revenues (Million US$)
2.3.2.5.3. Region (Tonnes)
2.3.2.6. Producers
2.3.3. Bacterial nanocellulose (BNC)
2.3.3.1. Applications
2.3.3.2. Technology Roadmap
2.3.3.3. Current and projected market 2022-2035
2.3.3.3.1. Volume (tonnes)
2.3.3.3.2. Revenues (Million US$)
2.3.3.3.3. Region (Tonnes)
2.3.3.4. Producers
2.3.4. Lignin nanoparticles
2.3.4.1. Production
2.3.4.2. Markets and applications
2.3.4.3. Current and projected market 2022-2035
2.3.4.3.1. Volume (tonnes)
2.3.4.3.2. Revenues (Million US$)
2.3.4.3.3. Region (Tonnes)
2.4. OTHER TYPES
2.4.1. Dendrimers
2.4.1.1. Market overview
2.4.1.2. Properties
2.4.1.3. Markets and applications
2.4.1.4. Technology Roadmap
2.4.1.5. Current and projected market 2022-2035
2.4.1.5.1. Volume (tonnes)
2.4.1.5.2. Revenues (Million US$)
2.4.1.5.3. Region (Tonnes)
2.4.1.6. Producers
2.4.2. Nanoclays
2.4.2.1. Market overview
2.4.2.2. Properties
2.4.2.3. Markets and applications
2.4.2.4. Technology Roadmap
2.4.2.5. Current and projected market 2022-2035
2.4.2.5.1. Volume (tonnes)
2.4.2.5.2. Revenues (Million US$)
2.4.2.5.3. Region (Tonnes)
2.4.2.6. Producers
2.4.3. Polymer nanofibers
2.4.3.1. Market overview
2.4.3.2. Properties
2.4.3.3. Markets and applications
2.4.3.4. Technology Roadmap
2.4.3.5. Current and projected market 2022-2035
2.4.3.5.1. Volume (tonnes)
2.4.3.5.2. Revenues (Million US$)
2.4.3.5.3. Region (Tonnes)
2.4.3.6. Producers
2.4.4. Quantum dots
2.4.4.1. Market overview
2.4.4.2. Properties
2.4.4.2.1. Cadmium QDs
2.4.4.2.2. Cadmium-free QDs
2.4.4.3. Markets and applications
2.4.4.4. Products
2.4.4.5. Technology Roadmap
2.4.4.6. Current and projected market 2022-2035
2.4.4.6.1. Volume (tonnes)
2.4.4.6.2. Revenues (Million US$)
2.4.4.6.3. Region (Tonnes)
2.4.4.7. Producers
2.4.4.8. Producers
2.4.5. Boron Nitride nanotubes (BNNTs)
2.4.5.1. Properties
2.4.5.2. Markets and applications
2.4.5.3. Producers
2.4.6. Erbium oxide nanoparticles/nanopowders
2.4.6.1. Properties, applications, prices and producers
2.4.7. Indium oxide nanoparticles
2.4.8. Molybdenum nanoparticles
2.4.9. Perovskite quantum dots
2.4.9.1. Properties
2.4.9.1.1. Comparison to conventional quantum dots
2.4.9.2. Synthesis methods
2.4.9.3. Applications
3. MARKETS FOR NANOTECHNOLOGY AND NANOMATERIALS
3.1. ELECTRONICS AND SEMICONDUCTORS
3.1.1. Displays
3.1.1.1. Market drivers
3.1.1.2. Applications
3.1.1.3. Technology roadmap
3.1.1.4. Current global market and forecast, 2022-2035
3.1.1.5. Companies
3.1.2. Transistors, integrated circuit, EMI shielding and other components
3.1.2.1. Market drivers
3.1.2.2. Applications
3.1.2.3. Technology roadmap
3.1.2.4. Global market forecast
3.1.2.5. Product developers
3.1.3. Memory and storage devices
3.1.3.1. Market drivers
3.1.3.2. Applications
3.1.3.3. Technology roadmap
3.1.3.4. Global market forecast
3.1.3.5. Companies
3.1.4. Electronics coatings
3.1.4.1. Market drivers
3.1.4.2. Applications
3.1.4.3. Technology roadmap
3.1.4.4. Global market forecast
3.1.4.5. Companies
3.1.5. Photonics
3.1.5.1. Market drivers
3.1.5.2. Applications
3.1.5.2.1. Si photonics versus graphene
3.1.5.2.2. Optical modulators
3.1.5.2.3. Photodetectors
3.1.5.2.4. Plasmonics
3.1.5.2.5. Fiber lasers
3.1.5.3. Technology roadmap
3.1.5.4. Global market forecast
3.1.5.5. Companies
3.2. ENERGY STORAGE
3.2.1. BATTERIES
3.2.1.1. Market drivers
3.2.1.2. Markets and applications
3.2.1.2.1. Lithium-ion batteries (LIB)
3.2.1.2.2. Nanomaterials in Lithium-sulfur (Li-S) batteries
3.2.1.2.3. Sodium-ion batteries
3.2.1.2.4. Lithium-air batteries
3.2.1.2.5. Magnesium batteries
3.2.1.3. Technology roadmap
3.2.1.4. Global market forecast
3.2.1.5. Companies
3.2.2. FUEL CELLS
3.2.2.1. Market drivers
3.2.2.2. Markets and applications
3.2.2.2.1. Nanostructured catalysts
3.2.2.2.2. Hydrogen storage
3.2.2.3. Technology roadmap
3.2.2.4. Global market forecast
3.2.2.5. Companies
3.2.3. SUPERCAPACITORS
3.2.3.1. Market drivers
3.2.3.2. Markets and applications
3.2.3.3. Technology roadmap
3.2.3.4. Global market forecast
3.2.3.5. Companies
3.3. AEROSPACE AND AVIATION
3.3.1. Market drivers
3.3.2. Markets and applications
3.3.2.1. Composites
3.3.2.2. Coatings
3.3.3. Technology roadmap
3.3.4. Global market forecast
3.3.5. Product developers
3.4. AUTOMOTIVE
3.4.1. Market drivers
3.4.2. Markets and applications
3.4.2.1. Composites
3.4.2.2. Paints and coatings
3.4.2.3. Tires
3.4.3. Technology roadmap
3.4.4. Global market forecast
3.4.5. Product developers
3.5. HEALTHCARE AND LIFE SCIENCES
3.5.1. Medical biosensors
3.5.1.1. Market drivers and trends
3.5.1.2. Applications
3.5.1.3. Technology roadmap
3.5.1.4. Global market forecast
3.5.1.5. Product developers
3.5.2. Drug formulation and delivery
3.5.2.1. Market drivers
3.5.2.2. Applications
3.5.2.3. Technology roadmap
3.5.2.4. Global market forecast
3.5.2.5. Product developers
3.5.3. Medical imaging and diagnostics
3.5.3.1. Market drivers
3.5.3.2. Applications
3.5.3.2.1. Contrast agents for MRI, CT, and ultrasound imaging
3.5.3.2.2. Targeted imaging and early disease detection
3.5.3.2.3. Advanced X-ray and PET detectors
3.5.3.3. Technology roadmap
3.5.3.4. Current global market and forecast, 2022-2035
3.5.3.5. Product developers
3.5.4. Medical coatings and films
3.5.4.1. Market drivers
3.5.4.2. Applications
3.5.4.2.1. Nanostructured coatings for improved biocompatibility
3.5.4.2.2. Nanofiber scaffolds for tissue engineering and wound healing
3.5.4.2.3. Nanomaterial-based drug delivery coatings
3.5.4.2.4. Nanocomposite coatings
3.5.4.2.5. Nanostructured films for advanced wound dressings and skin grafts
3.5.4.3. Technology roadmap
3.5.4.4. Global market forecast
3.5.4.5. Product developers
3.5.5. Medical implants
3.5.5.1. Market drivers
3.5.5.2. Applications
3.5.5.3. Technology roadmap
3.5.5.4. Global market forecast
3.5.5.5. Product developers
3.5.6. Wound care
3.5.6.1. Market drivers
3.5.6.2. Applications
3.5.6.3. Products
3.5.6.4. Technology roadmap
3.5.6.5. Current global market and forecast, 2022-2035
3.5.6.6. Product developers
3.5.7. Dental
3.5.7.1. Market drivers
3.5.7.2. Applications
3.5.7.3. Technology roadmap
3.5.7.4. Global market forecast
3.5.7.5. Product developers
3.6. COATINGS
3.6.1. Market drivers
3.6.2. Markets and applications
3.6.3. Technology roadmap
3.6.4. Global market forecast
3.6.5. Product developers
3.6.5.1. Anti-fingerprint nanocoatings
3.6.5.2. Anti-bacterial nanocoatings
3.6.5.3. Anti-corrosion nanocoatings
3.6.5.4. Abrasion and wear resistant nanocoatings
3.6.5.5. Barrier nanocoatings
3.6.5.6. Anti-fogging nanocoatings
3.6.5.7. Anti-fouling and easy-to-clean nanocoatings
3.6.5.8. Self-cleaning (bionic) nanocoatings
3.6.5.9. Self-cleaning (photocatalytic) nanocoatings
3.6.5.10. UV-resistant nanocoatings
3.6.5.11. Thermal barrier and flame retardant nanocoatings
3.6.5.12. Anti-icing and de-icing nanocoatings
3.6.5.13. Anti-reflective nanocoatings
3.6.5.14. Self-healing nanocoatings
3.7. COMPOSITES
3.7.1. Market drivers
3.7.2. Markets and applications
3.7.2.1. Ultra-strong, lightweight composites
3.7.2.2. Thermal management
3.7.2.3. Electrostatic discharge (ESD) and electromagnetic interference (EMI) shielding
3.7.2.4. Flame retardants
3.7.2.5. Sustainable composite materials
3.7.3. Technology roadmap
3.7.4. Global market forecast
3.7.5. Product developers
3.8. CONDUCTIVE INKS
3.8.1. Market drivers
3.8.2. Markets and applications
3.8.2.1. Silver nanoparticles
3.8.2.2. Carbon nanotubes and graphene
3.8.2.3. Copper nanoparticles
3.8.3. Technology roadmap
3.8.4. Global market forecast
3.8.5. Product developers
3.9. CONSTRUCTION AND INFRASTRUCTURE
3.9.1. Market drivers
3.9.2. Markets and applications
3.9.2.1. Insulation and thermal management
3.9.2.2. Exterior coatings (protective, wood and glass)
3.9.2.3. Smart windows and glass products
3.9.2.4. VOC mitigation and air filtration
3.9.2.5. Concrete and cement
3.9.2.6. Self-healing construction materials
3.9.2.7. Asphalt and bitumen
3.9.3. Technology roadmap
3.9.4. Global market forecast
3.9.5. Companies
3.10. COSMETICS AND PERSONAL CARE
3.10.1. Market drivers
3.10.2. Markets and applications
3.10.2.1. Products
3.10.2.2. Nanoencapsulation for controlled release
3.10.2.3. Nanoparticles for UV protection in sunscreens
3.10.2.4. Nanoemulsions
3.10.2.5. Anti-aging and skin regeneration products
3.10.3. Technology roadmap
3.10.4. Global market forecast
3.10.5. Companies
3.11. ENVIRONMENTAL
3.11.1. Market drivers
3.11.2. Applications
3.11.2.1. Nanomaterials for water purification
3.11.2.2. Airborne filters
3.11.2.3. Nanosensors for environmental monitoring and pollution detection
3.11.2.4. Soil remediation and contaminant removal
3.11.2.5. Catalysis and Green Chemistry
3.11.3. Technology roadmap
3.11.4. Global market forecast
3.11.5. Product developers
3.12. FOOD AND AGRICULTURE
3.12.1. Market drivers
3.12.2. Markets and applications
3.12.2.1. Food packaging
3.12.2.2. Coatings
3.12.2.3. Nanosensors for Food Safety and Quality Control
3.12.2.4. Additives in food additives and supplements
3.12.2.5. Agricultural production
3.12.2.5.1. Nanofertilizers
3.12.2.5.2. Nanopesticides
3.12.3. Technology roadmap
3.12.4. Global market forecast
3.12.5. Product developers
3.13. HOUSEHOLD CARE AND SANITARY
3.13.1. Market drivers
3.13.2. Markets and applications
3.13.2.1. Anti-microbial coatings
3.13.2.2. Self-cleaning & easy clean coatings
3.13.2.3. Photocatalytic coatings
3.13.2.4. Anti-fingerprint nanocoatings
3.13.3. Technology roadmap
3.13.4. Global market forecast
3.13.5. Product developers
3.14. LUBRICANTS
3.14.1. Market drivers
3.14.2. Markets and applications
3.14.3. Technology roadmap
3.14.4. Global market forecast
3.14.5. Product developers
3.15. MARINE
3.15.1. Market drivers
3.15.2. Markets and applications
3.15.3. Technology roadmap
3.15.4. Global market forecast
3.15.5. Product developers
3.16. OIL, GAS AND MINIING
3.16.1. Market drivers
3.16.2. Markets and applications
3.16.2.1. Sensing and reservoir management
3.16.2.2. Coatings
3.16.2.3. Drilling fluids
3.16.2.4. Nanostructured catalysts
3.16.2.5. Sorbent materials
3.16.2.6. Filtration and separation
3.16.3. Technology roadmap
3.16.4. Global market forecast
3.16.5. Product developers
3.17. PLASTICS AND PACKAGING
3.17.1. Market drivers
3.17.2. Markets and applications
3.17.3. Technology roadmap
3.17.4. Global market forecast
3.17.5. Companies
3.18. RUBBER
3.18.1. Market drivers
3.18.2. Markets and applications
3.18.2.1. Nanofillers
3.18.2.2. Nanoclays for enhanced barrier properties and reduced gas permeability
3.18.2.3. Nanocomposites for improved wear resistance and durability
3.18.2.4. Nanomaterials for self-healing and smart rubber materials
3.18.3. Technology roadmap
3.18.4. Global market forecast
3.18.5. Product developers
3.19. SECURITY AND DEFENCE
3.19.1. Market drivers
3.19.2. Markets and applications
3.19.2.1. Military textiles
3.19.2.2. Military equipment
3.19.2.3. Anti-counterfeiting
3.19.2.4. Sensors and detection
3.19.2.5. Ballistic protection
3.19.3. Technology roadmap
3.19.4. Global market forecast
3.19.5. Product developers
3.20. SENSORS
3.20.1. Market drivers
3.20.2. Markets and applications
3.20.2.1. Gas sensors
3.20.2.2. Strain sensors
3.20.2.3. Biosensors
3.20.2.4. Food sensors
3.20.2.5. Image sensors
3.20.2.6. Infrared (IR) sensors
3.20.2.7. Optical sensors
3.20.2.8. Pressure sensors
3.20.2.9. Humidity sensors
3.20.2.10. Acoustic sensors
3.20.2.11. Wireless sensors
3.20.3. Technology roadmap
3.20.4. Global market forecast
3.20.5. Product developers
3.21. PHOTOVOLTAICS
3.21.1. Market drivers
3.21.2. Markets and applications
3.21.2.1. Nanostructured solar cells (e.g., quantum dot, perovskite)
3.21.2.2. Solar water splitting
3.21.2.3. Solar coatings
3.21.2.4. Transparent, conductive electrodes in solar cells
3.21.3. Technology roadmap
3.21.4. Global market forecast
3.21.5. Product developers
3.22. TEXTILES & APPAREL
3.22.1. Market drivers
3.22.2. Markets and applications
3.22.2.1. Protective textiles
3.22.2.2. Electronic textiles
3.22.3. Technology roadmap
3.22.4. Global market forecast
3.22.5. Product developers
3.23. TOOLS & MANUFACTURING
3.23.1. Market drivers
3.23.2. Markets and applications
3.23.2.1. Nanostructured coatings for improved durability and performance of cutting tools and drills
3.23.2.2. Nanocomposites for parts and components
3.23.2.3. Nanostructured ceramics for high-temperature and high-pressure applications
3.23.2.4. Nanolubricants
3.23.2.5. Nanosensors for real-time monitoring and control
3.23.2.6. Nanostructured catalysts for more efficient and sustainable chemical manufacturing processes
3.23.3. Technology roadmap
3.23.4. Global market forecast
3.23.5. Product developers
3.24. 3D PRINTING/ADDITIVE MANUFACTURING
3.24.1. Markets and applications
3.24.1.1. Nanomaterial-based filaments and resins
3.24.1.2. Conductive and heat-resistant 3D printing materials
3.24.1.3. Nanoparticle-based inks for high-resolution, multi-material 3D printing
3.24.1.4. Nanocomposites for 3D printing
3.24.1.5. Nanoceramic materials
3.24.1.6. Nanostructured materials for 4D printing
3.24.2. Technology roadmap
3.24.3. Global market forecast
3.24.4. Product developers
3.25. ADHESIVES AND SEALANTS
3.25.1. Market drivers
3.25.2. Markets and applications
3.25.2.1. Properties
3.25.2.2. End user markets
3.25.2.3. Nanomaterials in adhesives
3.25.3. Technology Roadmap
3.25.4. Global market forecast
3.25.5. Product developers
3.26. OTHER MARKETS
3.26.1. CATALYSTS
3.26.1.1. Markets and applications
3.26.1.2. Product developers
3.26.2. WIRE AND CABLE
3.26.2.1. Markets and applications
3.26.2.1.1. Composites
3.26.2.1.2. Coatings
3.26.2.2. Product developers
3.26.3. SPORTING GOODS
3.26.3.1. Markets and applications
3.26.3.1.1. Composites
3.26.3.1.2. Coatings
3.26.3.2. Product developers
3.26.4. WIND ENERGY
3.26.4.1. Market drivers
3.26.4.2. Markets and applications
3.26.4.2.2. Product developers
3.26.5. THERMOELECTRICS
3.26.5.1. Market drivers
3.26.5.2. Markets and applications
3.26.5.3. Product developers
4. RESEARCH METHODOLOGY
5. REFERENCES
