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Market Research Report

Graphene in the World and Russia: Production, Market and Forecast (2nd Edition)

Published by INFOMINE Research Group Product code 968143
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Graphene in the World and Russia: Production, Market and Forecast (2nd Edition)
Published: October 23, 2020 Content info:

This report is the second edition of the research of the graphene market in the world and in Russia.

The purpose of the study is to analyze the world and Russian graphene market.

The object of research is graphene and its derivatives, as well as products based on it.

This work is a desk study. The sources of information were data from scientific, industry and regional press, annual and quarterly reports of securities issuers, websites of graphene producers, a survey of domestic and foreign experts on the production and use of graphene.

Chronological framework of the study: 2010-2019, forecast for 2020-2025

Geography of research: countries of the world and the Russian Federation.

The report consists of 5 chapters, contains 219 pages, including 41 tables, 83 figures and 3 appendices.

The first chapter provides information on graphene, its basic properties and approaches to the standardization of graphene materials. The levels of impurities on selected industrial grades of graphene are selectively indicated.

The second chapter describes the raw materials used and the main industrial technologies for the production of graphene films and graphene powders.

The third chapter provides a description of the world market in 2010-2019. The main manufacturers of graphene are considered in detail, the main market drivers are formulated, the leading research centers for graphene are indicated, the areas of application of graphene are briefly described and the price analysis of graphene from different manufacturers is carried out.

The fourth chapter examines the state of the graphene industry in Russia in 2010-2019.

The fifth chapter examines the prospects for the development of the graphene industry and gives a forecast of production and consumption until 2025.

Appendices contain addresses and contact information of foreign and Russian graphene producers, as well as a list of Russian graphene R&D centers.

The highlight of the report is a detailed review of the profile of the world's largest companies and all well-known manufacturers of graphene and graphene products in Russia.

Target audience of the study:

  • graphene market participants - producers, consumers, traders;
  • students of specialized universities;
  • analysts of the nanotechnology market;
  • potential investors.

The proposed study claims to be a reference guide for specialists making management decisions working in the graphene and its derivatives market.

Table of Contents

Table of Contents


Terms and Definitions


1. Main characteristics of graphene, types of industrial products, quality requirements (standards)

  • 1.1 Commodity forms
  • 1.2 Standards

2. Raw materials and technologies for the production of graphene

3. World graphene market

  • 3.1 Major graphene producers in 2010-2019
    • 3.1.1 Producers of dispersed graphene in 2010-2019
      • NanoXplore (Canada)
      • The Sixth Element (Changzhou) Materials Technology (China)
      • SuperC (Dongguan) Technology (China)
      • XG Sciences (USA)
      • Moxi Group / Ningbo Morsch Technology (China)
      • Haoxin Technology (China)
      • BTR New Material Group (China)
      • Graphene Nanochem (Malaysia)
      • Global Graphene Group / Angstron Materials (USA)
      • Xiamen Knano Graphene Technology (China)
      • Shandong Leadernano Technology (China)
      • Perpetuus Advanced Materials (England)
      • Baotailong New Materials (China)
      • Tangshan Jianhua Industrial Group (China)
      • First Graphene (Australia)
      • Other manufacturers of dispersed graphene
    • 3.1.2 Manufacturers of monocrystalline graphene
      • Chongqing Graphene Technology (China)
      • 2D Carbon (Changzhou) Tech (China)
      • Wuxi Graphene Film (China)
      • Grolltex (USA)
      • Graphenea (Spain)
      • Graphensic AB (Sweden)
      • Graphene Square (South Korea)
      • LG Electronics (South Korea)
      • Kuk Il Graphene (South Korea)
      • Graphene Platform Corp. (Japan)
  • 3.2 Main trends in the graphene market
  • 3.3 Major R&D centers
    • National Graphene Institute (England)
    • Beijing Graphene Institute (China)
    • Massachusetts Institute of Technology (USA)
    • Oak Ridge National Laboratory (USA)
    • Korea Advanced Institute of Science and Technology (South Korea)
    • IIT Graphene Labs (Italy)
    • Fujitsu Laboratories (Japan)
    • IBM Research (USA)
    • Center for Advanced 2D Materials (Singapore)
  • 3.4 Applications of graphene in 2010-2019
    • Corrosion-protective coatings
    • Touch screens
    • Lithium-ion batteries
    • Composites
    • Supercapacitors
    • Tires
    • 3D printing
    • Biomedicine and healthcare
    • Graphene ink
    • Hydrogen accumulators
    • Armor
    • Bioenergy
  • 3.5 Price analysis in 2017-2020
    • 3.5.1 Prices for graphene powders in 2017-2020
    • 3.5.2 Prices for graphene nano-wafers in 2017-2020
    • 3.5.3 Prices for graphene single crystals in 2017-2020
    • 3.5.4 Price forecast for graphene products

4. Graphene market in Russia in 2010-2019, producers and consumers

  • 4.1 Graphene producers in the Russian Federation in 2010-2019
    • LLC "Nanotechcenter" (Tambov)
    • JSC "ZAVKOM" (Tambov)
    • LLC "AkKo Lab" (Moscow)
    • LLC "Rusgrafen" (Protvino)
    • LLC "GrafenOx" (Chernogolovka)
    • OOO NPO Graphene Materials (St. Petersburg)
    • LLC "Global AKZ" (Tomsk)
    • LLC "Karbolight" (Dolgoprudny)
    • LLC "MIP" Graphene "(Yakutsk)
    • LLC "Nanomaterials" (Tambov)
    • LLC "Active-nano" (St. Petersburg)
    • LLC "Grafentech" (Moscow)
    • OOO "Graf-SK" (Moscow)
    • OOO "GrafSensors" (Moscow)
    • LLC "GK Genesis GNP" (Moscow)
    • OOO PKF Alliance (St. Petersburg)
    • LLC "Tenzograf" (Tula region)
    • LLC "Lithion" (Dubna)
    • JSC "Fescom" (Moscow)
    • Informals
  • 4.2 Foreign trade operations of the Russian Federation with graphene in 2014-2019
    • 4.2.1 Import of graphene and graphene products in 2014-2019
    • 4.2.2 Export of graphene and graphene products in 2014-2019
  • 4.3 Consumers of graphene in the Russian Federation in 2010-2019

5. Prospects for the development of the graphene industry in Russia, forecast for 2020-2025.

Appendix 1. Major graphene producers in the world

Appendix 2. Main producers of graphene in Russia

Appendix 3. The main topics of the leading research centers for graphene in Russia in 2015-2020.

List of Tables

  • Table 1: Main properties of monolayer graphene (MG), multilayer graphene nanoparticles (LNP) and crushed graphite
  • Table 2: Analysis of graphene nanoparticles for the content of impurities of seven elements, ppm
  • Table 3: Capacities of the countries of the world for the production of dispersed graphene in 2020, thousand tons
  • Table 4: The largest producers of dispersed graphene in 2020, tons
  • Table 5: Main characteristics of graphene grades produced by The Sixth Element (Changzhou) Materials Technology
  • Table 6: Main characteristics of graphene oxide grades produced by The Sixth Element (Changzhou) Materials Technology
  • Table 7: Main characteristics of SC graphene pastes produced by SuperC Technology
  • Table 8: Specifications for xGnP® Graphene Nano-Plates in 2017
  • Table 9: Main characteristics of Haoxin Technology graphene nanoplates
  • Table 10: Specifications of graphene nanoparticle grades manufactured by the Global Graphene Group
  • Table 11: Applications of graphene grades produced by the Global Graphene Group
  • Table 12: Main characteristics of graphene grades manufactured by Knano
  • Table 13: Financial performance of Baotailong New Materials in 2017-2020, million yuan
  • Table 14: Main Properties of Graphene Grades Produced by Tangshan Jianhua Industrial Group
  • Table 15: Main characteristics of graphene grades of AzTrong company
  • Table 16: Main characteristics of AzTrong graphene oxide grades
  • Table 17: Grades of graphene nanoplates produced by Thomas Swan
  • Table 18: Characteristics of Fanglin Minerals Graphene Powders
  • Table 19: Capacities for the production of monocrystalline graphene in the world in 2020, million m2
  • Table 20: Fields of application of the global graphene market
  • Table 21: Structure of graphene consumption areas in 2019,%
  • Table 22: Prices for graphene powders in March 2017 and September 2020, $ / kg
  • Table 23: Prices for graphene nano-wafers of foreign manufacturers in March 2017 and September 2020, $ / kg
  • Table 24: Prices for graphene single crystals in March 2017 and September 2020, $ / cm2
  • Table 25: Characteristics of aqueous pastes for graphene nano wafers
  • Table 26: Price list of graphene products of Nanotechcenter LLC for March 2017 and September 2020, rubles / gram
  • Table 27: Key financial indicators of Nanotechcenter LLC in 2014-2019, RUB mln
  • Table 28: Main properties of graphene grades produced by ZAVKOM JSC
  • Table 29: Graphene products of AkKo Lab LLC
  • Table 30: Key financial indicators of AkKo Lab LLC in 2014-2019, RUB million
  • Table 31: Graphene products of Rusgrafen LLC
  • Table 32: Key financial indicators of LLC Rusgrafen in 2015-2019, RUB million
  • Table 33: Graphene products of Grafenox LLC
  • Table 34: Key financial indicators of LLC "Carbonlight" in 2010-2015, thousand rubles
  • Table 35: Main financial indicators of LLC MIP Graphene in 2014-2019, mln rubles
  • Table 36: Main Characteristics of CFera® Graphene Grease
  • Table 37: Areas of application of the grease TsVS-01
  • Table 38: Key financial indicators of LLC "Lithion" in 2014-2019, million rubles
  • Table 39: Imports of graphene in 2014-2019, grams, $
  • Table 40: Import of graphene products in 2014-2019, units, $
  • Table 41: Export of Russian graphene and products with its use in 2014-2019, grams, $

List of Figures

  • Figure 1: Schematic representation of graphene
  • Figure 2: Monocrystalline graphene (left) and amorphous graphene (right)
  • Figure 3: Defects in single-layer graphene like "vacancy", "topological defect of Stone-Wales" and "nanopore"
  • Figure 4: Structure of graphene with incorporated crown ether molecules
  • Figure 5: Electronic photographs of graphene oxide pom-poms
  • Figure 6: Schematic diagram of the CVD process of graphene synthesis on a substrate
  • Figure 7: Scheme of obtaining graphene from graphite through intermediate formation of graphite oxide
  • Figure 8: Share of different technologies in global graphene production in 2019
  • Figure 9: Dynamics of world production of graphene in 2010-2020, thousand tons
  • Figure 10: Top 10 global graphene producers in 2016, tons per year
  • Figure 11: Internal view of the NanoXplore plant for the production of graphene powder with a capacity of 4 thousand tons per year
  • Figure 12: Rigidity of polyethylene, including with the addition of 1% graphene, after two cycles of use, GPa
  • Figure 13: The Sixth Element (Changzhou) Materials Technology Graphene Workshop, 2016.
  • Figure 14: Graphene anti-corrosion coating on a wind turbine column in the Yellow Sea
  • Figure 15: Huawei Mate 20 X Smartphone with Graphene Heat Sinks from The Sixth Element
  • Figure 16: Commencement of construction of a 1,000 tpa graphene plant in Nantong, China in February 2019.
  • Figure 17: SuperC (Dongguan) Technology Environmental Certificate
  • Figure 18: Diagram of XG Sciences 3-Step Graphene Nano-Wafer Manufacturing Process
  • Figure 19: View of XG Science's chemical cleavage of graphite for graphene production, 2017
  • Figure 20: Rossui Graphene Transparent Medical Masks
  • Figure 21: Exterior view of the Leadernano Technology plant
  • Figure 22: Leadernano Technology manufacturing site in 2017
  • Figure 23: Exterior view of the Perpetuus Advanced Materials plant
  • Figure 24: Tangshan Jianhua Industrial Group Graphene Workshop
  • Figure 25: Vision AVTR electric vehicle concept with graphene batteries
  • Figure 26: Flowchart of Thomas Swan Graphene Nanoplates Manufacturing Process
  • Figure 27: Appearance of graphene single crystals on a copper substrate manufactured by Chongqing Graphene Technology
  • Figure 28: Flexible Graphene Masks from Chongqing Graphene Technology
  • Figure 29: Samples and Mockups of Graphene Products from Chongqing Graphene Technology
  • Figure 30: Graphene Home Touch Panel from 2D Carbon (Changzhou) Tech
  • Figure 31: JR029-G Graphene Film Heater from 2D Carbon (Changzhou) Tech
  • Figure 32: Graphene Pressure Sensors from 2D Carbon (Changzhou) Tech
  • Figure 33: Industrial Graphene Transparent Conductive Film From 2D Carbon (Changzhou) Tech
  • Figure 34: Graphene wearable electronic touch sensor from 2D Carbon (Changzhou) Tech
  • Figure 35: Technological scheme for the production of monocrystalline graphene by Grolltex
  • Figure 36: List of Grolltex Monocrystalline Graphene Consumers
  • Figure 37: Graphenea's Graphene Workshop
  • Figure 38: Exterior view of Graphensic plant for growing epitaxial graphene from silicon carbide
  • Figure 39: Schematic of continuous exfoliation of a graphene film from a copper substrate onto an intermediate polymer layer according to the development of the Graphene Square company
  • Figure 40: Flowchart of Graphene Square Smartphone Graphene Touch Screen Manufacturing
  • Figure 41: Exterior view of Kuk Il Graphene equipment for mass production of coiled graphene
  • Figure 42: Appearance of Kuk Il Graphene equipment for plasma chemical vapor deposition of graphene
  • Figure 43: Scheme of graphene synthesis on a substrate with a titanium catalyst from Kuk Il Graphene
  • Figure 44: Panorama of the stages of graphene implementation by IDTechEx
  • Figure 45: Exterior of a mechanical chronometer with a Graph TPT ™ case
  • Figure 46: Detail of a plant for the production of graphene single crystals on a copper substrate
  • Figure 47: Schemes for obtaining single crystals of graphene on glasses
  • Figure 48: Process flow diagram for manufacturing large sheets of high quality MIT graphene
  • Figure 49: Schematic of a graphene / polymer composite developed by ORNL Oak Ridge National Laboratory
  • Figure 50: Scheme of growing large single crystals of graphene by the ORNL method
  • Figure 51: Graphene loudspeaker, consisting of 16 sound reproduction modules, developed by the KAIST Institute
  • Figure 52: Schematic diagram of a graphene nitrogen dioxide and ammonia sensor built at Fujitsu Laboratories
  • Figure 53: Artistic rendering of the placement of nanoscale materials using an electric field between pairs of opposing graphene electrodes
  • Figure 54: Structure of areas of graphene consumption in 2016,%
  • Figure 55: Comparative Test Results for Graphene Coating
  • Figure 56: Appearance of screens for smartphones manufactured by Wuxi Graphene Electronic Film Technology
  • Figure 57: Exterior of Moxi Flexible Graphene Bracelet Smartphones
  • Figure 58: FlexEnable Graphene Flexible Desktop Display
  • Figure 59: Appearance of Dongxu Optoelectronic Li-ion Battery
  • Figure 60: External view of supercapacitors based on graphene electrodes developed by Nanotechcenter LLC together with JSC VSKB Rikon
  • Figure 61: Shangdong Hengyu Technology Graphene Tires
  • Figure 62: Graphene Reinforced Car Tires from Nanjing SCF Nanotechnology
  • Figure 63: 3D printing thermoplastic filament (graphene reinforced) from Nanjing SCF Nanotechnology
  • Figure 64: Samples of 12 graphene-reinforced multi-colored plastic composites manufactured by Nanjing SCF Nanotechnology
  • Figure 65: Model system graphene - water - lipid bilayer for biosensors
  • Figure 66: Scheme of interaction of two peptides through the stage of sorption of one of them on the surface of graphene oxide
  • Figure 67: Guardian G-Volt Self Cleaning Mask
  • Figure 68: PlanarTECH graphene-filled hygiene mask
  • Figure 69: Principle of operation of a graphene biosensor
  • Figure 70: Diagram of bioelectronic human tattoos
  • Figure 71: Chinese Z-10 Attack Helicopter with Graphene-Aluminum Armor
  • Figure 72: Scheme of symbiosis of Geobacter sulfurreducens with graphene
  • Figure 73: Volumes of graphene production in Russia in 2017-2020, thousand tons
  • Figure 74: Scheme of physical and chemical processes for obtaining graphene nano-wafers and their chemical derivatives from graphite
  • Figure 75: Site for the production of graphene JSC "ZAVKOM"
  • Figure 76: Graphene film on nickel foil 20x100 mm manufactured by OOO Rusgrafen
  • Figure 77: General Director of OOO Rusgrafen with the Graphene Submarine unit.
  • Figure 78: Tracks of electrically conductive graphene paint connected to a battery and an LED (left), and graphene nanoplates and graphene microparticles (right) Rusgrafen LLC
  • Figure 79: Graphene sorbent of GrafenOx LLC
  • Figure 80: Products of Global AKZ LLC
  • Figure 81: Genesis GNP Engine Oil
  • Figure 82: Dynamics of imports of graphene and graphene products to Russia in 2014-2019, thousand $
  • Figure 83: Forecast of graphene production in the world and the Russian Federation for 2020-2025, thousand tons
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