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The Global Market for Lab-Grown Diamonds and Nanodiamonds 2022-2033

  • Report

  • 120 Pages
  • September 2022
  • Region: Global
  • Future Markets, Inc
  • ID: 5651553

A diamond possesses the highest chemical stability, as well as unique conductivity and thermal shock resistance. Lab-grown diamonds have recently risen to prominence as replacement for natural diamonds.  The fine jewellery market is the main customer for lab-grown diamonds. However, other applications are also being developed in thermal management, optics, quantum computing, high-power electronics and diamond detectors.

Nanodiamonds (NDs) are diamond phase carbon nanomaterials that were initially used for their strong abrasive properties and as lubricant additives for industrial applications. Now they are impacting a broad range of markets including batteries, supercapacitors, skincare, biomedicine, coatings and plastics. 

Main types of commercial NDs produced are categorized as high-pressure high temperature (HPHT) nanodiamonds, CVD diamond and detonation nanodiamonds (DND). Extremely small amounts of nanodiamond additives can modify a variety of thermal and mechanical properties in various parent materials.

Properties include:

  • Diamond core: highest hardness (167 Gpa) and wear resistance
  • Highest thermal conductivity (2300 W/mK)
  • High electrical resistivity (10¹³ ῼcm)
  • Low thermal expansion (1.0×10-6 K-1)
  • Wide band gap (5.47 eV {300 K})
  • High refractive index (2.417)
  • Low specific gravity (3.52)
  • Chemical/radiation resistance
  • Biocompatibility
  • Large surface area (250- 450 m²/g)
  • High & controllable chemical activity of the surface.
  • Environmentally friendly (green additives).

Main current applications of Nanodiamonds in terms of volume demand are:

  • Fine polishing abrasives.
  • Coatings additives (galvanic and electroless).
  • Lubricant additives (oils and grease).
  • Reinforcing polymer fillers.

Other applications that will gain commercial prominence include skincare, biomedicine (e.g. drug delivery and biosensors) and batteries. 

Report contents include: 

  • Types of lab-grown diamonds and nanodiamonds and properties.
  • Production methods by producer.
  • Applications, benefits, market megatrends, market drivers for use of lab-grown diamonds and nanodiamonds, technology challenges, competing materials, market demand.
  • Competitive landscape.
  • Markets for lab-grown diamonds and nanodiamonds including
    • lubricants
    • electroplating and anti-wear/friction coatings
    • polishing materials
    • biomedicine
    • composites
    • thermoplastics
    • skincare
    • energy storage
    • thermal management
    • optics
    • quantum computing
    • high-power electronics
    • diamond detectors.
  • Lab-grown diamonds and nanodiamonds pricing.
  • Global market consumption of lab-grown diamonds and nanodiamonds to 2033
  • In depth company profiles including types produced, products, target markets, production capabilities, contact details. Companies profiled include Adamas, Appsilon Enterprise, Carbodean, Daicel, Lusix, NDB, Quantum Brilliance, Ray Techniques etc.


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Table of Contents


1 RESEARCH METHODOLOGY
2 LAB-GROWN DIAMONDS
2.1 Production methods
2.1.1 Chemical Vapour Disposition (CVD)
2.1.1.1 Treatments
2.1.2 High Pressure High Temperature (HPHT)
2.1.2.1 Treatments

3 NANODIAMONDS
3.1 Properties
3.2 Types
3.2.1 Commercial nanodiamonds
3.2.2 Fluorescent nanodiamonds (FNDs)
3.3 Production methods-advantages and disadvantages

4 APPLICATIONS
4.1 Lab-grown diamonds
4.2 Nanodiamonds

5 MARKETS FOR LAB-GROWN DIAMONDS AND NANODIAMONDS
5.1 LAB-GROWN DIAMONDS
5.1.1 Global revenues to 2033, by market
5.1.2 Jewellery segment overview
5.1.3 Lab-grown diamond producers list
5.1.4 Advanced applications
5.1.4.1 Electronics & computing
5.1.4.1.1 Heat spreaders
5.1.4.1.2 Quantum computing
5.1.4.1.3 High-power electronics
5.1.4.2 Medicine
5.1.4.2.1 Imaging
5.1.4.2.2 Medical implants
5.1.4.3 Lasers and optics
5.1.4.4 Spectroscopy
5.2 NANODIAMONDS
5.2.1 Lubricant additives
5.2.1.1 Overview
5.2.1.2 Market and applications
5.2.1.3 Global market consumption of nanodiamonds in lubricants to 2033 (tons)
5.2.2 Electronic polishing materials
5.2.2.1 Overview
5.2.2.2 Markets and applications
5.2.2.3 Global market consumption of nanodiamonds in lubricants to 2033 (tons)
5.2.3 Electroplating and anti-wear/friction coatings
5.2.3.1 Overview
5.2.3.2 Markets and applications
5.2.3.3 Global market consumption of nanodiamonds in electroplating and anti-wear/friction coatings to 2033 (tons)
5.2.4 Composites
5.2.4.1 Overview
5.2.4.2 Fiber-based polymer composite parts
5.2.4.2.1 Applications
5.2.4.2.2 Global market consumption of nanodiamonds in composites to 2033 (tons)
5.2.4.2.2.1 Thermosets
5.2.4.2.2.2 Thermoplastics
5.2.4.3 Metal-matrix composites
5.2.4.3.1 Overview
5.2.4.3.2 Global market consumption of nanodiamonds in metal-matrix to 2033, tons
5.2.5 Skincare
5.2.5.1 Overview
5.2.5.2 Markets and applications
5.2.5.3 Global market consumption of nanodiamonds in skincare to 2033 (tons)
5.2.6 Supercapacitors
5.2.6.1 Overview
5.2.6.2 Markets and applications
5.2.6.3 Global market consumption of nanodiamonds in supercapacitors to 2033 (tons)
5.2.7 Batteries
5.2.7.1 Overview
5.2.7.2 Markets and applications
5.2.7.3 Global market consumption of nanodiamonds in batteries to 2033 (tons)
5.2.8 Drug delivery
5.2.8.1 Overview
5.2.8.2 Markets and applications

6 PRICING OF LAB-GROWN DIAMONDS AND NANODIAMONDS7 COMPANY PROFILES8 REFERENCES
List of Tables
Table 1. Properties of nanodiamonds
Table 2. Summary of types of NDS and production methods-advantages and disadvantages
Table 3. Markets, benefits and applications of lab-grown diamonds
Table 4. Markets, benefits and applications of nanodiamonds
Table 5. Lab-grown diamond producers list
Table 6. Nanomaterial lubricant products
Table 7. Market and applications for nanodiamonds in lubricants-applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand
Table 8. Market consumption of nanodiamonds in lubricants to 2033 (tons)
Table 9. Market overview for NDs in polishing materials-market maturity, market demand, competitive landscape
Table 10. Markets and applications for nanodiamonds in polishing materials-applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand
Table 11. Global market consumption of nanodiamonds in polishing additives to 2033 (tons)
Table 12. Market overview for NDs in electroplating and anti-friction/wear coatings-market maturity, market demand, competitive landscape.
Table 13. Markets and applications for NDs in electroplating and anti-wear/friction coatings-applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand.
Table 14. Global market consumption of nanodiamonds in electroplating and anti-wear/friction coatings to 2033 (tons)
Table 15. Market overview for nanodiamonds in composites-market maturity, market demand, competitive landscape.
Table 16. Market overview for nanodiamonds in fiber-based polymer composite parts
Table 17. Market and applications for nanodiamonds in fiber-based composite parts-applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand.
Table 18. Global market consumption of nanodiamonds in thermosets to 2033 (tons)
Table 19. Global market consumption of nanodiamonds in thermoplastics to 2033 (tons)
Table 20. Market and applications for NDs in metal matrix composites-market maturity, market demand, competitive landscape
Table 21. Global market consumption of nanodiamonds in metal-matrix to 2033, tons
Table 22. Market overview for NDs in skincare (cosmetics)
Table 23. Markets and applications for nanodiamonds in skincare (cosmetics)-applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand.
Table 24. Global market consumption of nanodiamonds in skincare to 2033 (tons)
Table 25. Market overview for nanodiamonds in supercapacitors-market maturity, market demand, competitive landscape
Table 26. Markets and applications for nanodiamonds in supercapactitors- applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand
Table 27. Global market consumption of nanodiamonds in supercapacitors to 2033 (tons)
Table 28. Market overview for nanodiamonds in batteries -market maturity, market demand, competitive landscape
Table 29. Market and applications for NDs in batteries- applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand
Table 30. Global market consumption of nanodiamonds in batteries to 2033 (tons)
Table 31. Market overview for NDs in drug delivery
Table 32. NDs for drug delivery-applications, benefits, market megatrends, market drivers for use of nanodiamonds, technology challenges, competing materials, market demand
Table 33. Cost of lab-grown diamonds
Table 34. Pricing of nanodiamonds, by producer/distributor
Table 35. Production methods, by main nanodiamond producers
Table 36. Adamas Nanotechnologies, Inc. nanodiamond product list
Table 37. Carbodeon Ltd. Oy nanodiamond product list
Table 38. Daicel nanodiamond product list
Table 39. FND Biotech Nanodiamond product list
Table 40. JSC Sinta nanodiamond product list
Table 41. Plasmachem product list and applications
Table 42. Ray-Techniques Ltd. nanodiamonds product list
Table 43. Comparison of ND produced by detonation and laser synthesis

List of Figures
Figure 1. CVD process for lab-grown diamonds
Figure 2. HPHT lab-grown diamond process
Figure 3. Synthetic HPHT Diamonds
Figure 4. Detonation Nanodiamond
Figure 5. DND primary particles and properties
Figure 6. Functional groups of Nanodiamonds
Figure 7. Global revenues for lab-grown diamonds to 2033, by market
Figure 8. Market consumption of nanodiamonds in lubricants to 2033 (tons)
Figure 9. Global market consumption of nanodiamonds in polishing additives to 2033 (tons)
Figure 10. Global market consumption of nanodiamonds in electroplating and anti-wear/friction coatings to 2033 (tons)
Figure 11. Global market consumption of nanodiamonds in thermosets to 2033 (tons)
Figure 12. Global market consumption of nanodiamonds in thermoplastics to 2033 (tons)
Figure 13. Global market consumption of nanodiamonds in metal-matrix to 2033, tons
Figure 14. Prototypes of nanodiamonds, fullerene and lignin sunscreen
Figure 15. Global market consumption of nanodiamonds in skincare to 2033 (tons).Source: Future Markets, Inc
Figure 16. Global market consumption of nanodiamonds in supercapacitors to 2033 (tons)
Figure 17. Global market consumption of nanodiamonds in batteries to 2033 (tons)
Figure 18. Application of NDs in biomedicine based on synthesis method
Figure 19. NBD battery
Figure 20. Neomond dispersions

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • Adamas Nanotechnologies, Inc. 
  • Aether Diamonds 
  • Akhan
  • Appsilon Enterprise 
  • Art Beam Co., Ltd
  • AR Brown 
  • Beijing Grish Hitech Co., Ltd. 
  • Bikanta, Inc. 
  • Carbodeon Ltd. Oy 
  • Cymaris Labs 
  • Daicel Corporation 
  • Diamond Foundry 
  • Dynalene 
  • eOx International BV 
  • FND Biotech, Inc. 
  • Henan Union Abrasives Corp. 
  • Henan Yuxing Micro-Diamond Co., Ltd. 
  • Heyuan Zhonglian Nanotechnology Co. Ltd 
  • John Crane, Inc. 
  • L.M. van Moppes and Sons SA 
  • JSC SINTA 
  • Lusix 
  • Microdiamant AG 
  • NDB 
  • NanoCarbon Research Institute Co., Ltd./ New Metals and Chemicals Corporation, Ltd. 
  • NanoDiamond Products Limited 
  • Nanoplazz Technologies, Inc. 
  • Neomond Ltd. 
  • New Diamond Technology 
  • NVision Imaging Technologies GmbH 
  • PlasmaChem GmbH 
  • Quantum Brilliance 
  • Quantum Particles 
  • Ray-Techniques Ltd. 
  • Sumitomo Electric 
  • Tianjin Chanyu Superhard Sci-Tech Co., Ltd. 
  • Tong Li Tech 
  • WD Lab Grown Diamond 

Methodology

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