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Artificial Photosynthesis Market by Application (Hydrocarbon, Hydrogen, Chemicals), Technology (Co-Electrolysis, Photo-Electro Catalysis, Nanotechnology, Hybrid Process), Region (North America, APAC, Europe, Rest of World) - Global Forecast to 2030

April 2022 | 107 pages | ID: A2A4708FD54AEN
MarketsandMarkets

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The artificial photosynthesis market size will grow to USD 185 Million by 2030 from USD 62 Million in 2022, at a CAGR of 14.6% during the forecast period. The global artificial photosynthesis market is driven by the government fundings and grants for the research and development of artificial photosynthesis technology; global plans for net zero emissions. Growing demand of green H2 and eco-friendly liquid fuels are expected to offer lucrative opportunities for the artificial photosynthesis market during the forecast period.

“Asia Pacific: The largest region in the artificial photosynthesis market.”

Asia Pacific is expected to dominate the global artificial photosynthesis market between 2022–2030. The region has been segmented, by country, into Japan, China, India, and South Korea. The region faces a tough challenge to reduce its carbon footprint from various fossil-fuel-powered operations, including power generation. Asia Pacific is one of the leading markets that has adopted green technologies to meet the targets set by the governments for reducing greenhouse gas emissions. Furthermore, countries such as Japan and South Korea are increasing their investments in innovative energy & fuel generation technologies, such as fuel cells, carbon recycling, and others

Breakdown of Primaries:

In-depth interviews have been conducted with various key industry participants, subject-matter experts, C-level executives of key market players, and industry consultants, among other experts, to obtain and verify critical qualitative and quantitative information, as well as to assess future market prospects. The distribution of primary interviews is as follows:
  • By Company Type: Tier I–65%, Tier II–24%, and Tier III–11%
  • By Designation: C-Level–30%, Director Level–25%, and Others–45%
  • By Region: Asia Pacific–45%, North America–30%, and Europe–25%
Note: “Others” include research scholars, engineers, and technical head

The tier of the companies is defined on the basis of their total revenue as of 2017—Tier 1: USD 1 billion, Tier 2: from USD 1 billion to USD 500 million, and Tier 3:
The Major players who are actively carrying out research and development and moving slowly towards commercialization of artificial photosynthesis market are Panasonic Corporation (Japan), and ENGIE (France), TOSHIBA CORPORATION (Japan), Siemens Energy (Germany), FUJITSU (Japan), Evonik Industries AG (Germany), FUJIFILM Corporation (Japan), Toyota Central R&D Labs., Inc. (Japan), Mitsubishi Chemical Corporation (Japan), Twelve (formerly known as, Opus 12) (US) and etc.

Study Coverage:

The report defines, describes, and forecasts the artificial photosynthesis market, by technology, application, and region. It also offers detailed qualitative and quantitative analyses of the market. The report provides a comprehensive review of the major market drivers, restraints, opportunities, and challenges. It also covers various important aspects of the market. These include the analysis of the competitive landscape, market dynamics, market estimates, in terms of value, and future trends in the artificial photosynthesis market.

Key benefits of buying the report:

The report will help market leaders/new entrants in this market in the following ways:

1. This report segments the global artificial photosynthesis market comprehensively and provides the closest approximations of the revenues for the overall market and the sub-segments across different regions.
2. The report helps stakeholders understand the pulse of the artificial photosynthesis market and provides them with information on key market drivers, restraints, challenges, and opportunities.
3. This report will help stakeholders to understand competitors better and gain more insights to better their position in their businesses. The competitive landscape section includes the competitor ecosystem, partnerships, collaborations, and investments.
1 INTRODUCTION

1.1 STUDY OBJECTIVES
1.2 DEFINITION
  1.2.1 ARTIFICIAL PHOTOSYNTHESIS MARKET: INCLUSIONS AND EXCLUSIONS
1.3 MARKET SCOPE
  1.3.1 MARKET SEGMENTATION
  1.3.2 REGIONS COVERED
  1.3.3 YEARS CONSIDERED
1.4 CURRENCY
1.5 LIMITATIONS
1.6 STAKEHOLDERS

2 RESEARCH METHODOLOGY

2.1 RESEARCH DATA
FIGURE 1 ARTIFICIAL PHOTOSYNTHESIS MARKET: RESEARCH DESIGN
2.2 MARKET BREAKDOWN AND DATA TRIANGULATION
FIGURE 2 DATA TRIANGULATION METHODOLOGY
  2.2.1 SECONDARY DATA
    2.2.1.1 Key data from secondary sources
  2.2.2 PRIMARY DATA
    2.2.2.1 Key data from primary sources
    2.2.2.2 Breakdown of primaries
2.3 MARKET SIZE ESTIMATION
  2.3.1 SUPPLY-SIDE ANALYSIS
    2.3.1.1 Assumptions of supply-side analysis
    2.3.1.2 Calculation of supply-side analysis
  2.3.2 DEMAND-SIDE ANALYSIS
    2.3.2.1 Assumptions for demand-side analysis
    2.3.2.2 Limitation for demand-side analysis
    2.3.2.3 Calculation of demand-side analysis
  2.3.3 FORECAST

3 EXECUTIVE SUMMARY

TABLE 1 ARTIFICIAL PHOTOSYNTHESIS MARKET SNAPSHOT
FIGURE 3 ASIA PACIFIC HELD LARGEST SHARE OF ARTIFICIAL PHOTOSYNTHESIS MARKET IN 2021
FIGURE 4 DURING 2018–2022, MOST-USED STRATEGY BY COMPANIES IN ARTIFICIAL PHOTOSYNTHESIS MARKET WAS COLLABORATIONS

4 PREMIUM INSIGHTS

4.1 ATTRACTIVE OPPORTUNITIES IN ARTIFICIAL PHOTOSYNTHESIS MARKET
FIGURE 5 GROWING DEMAND FOR GREEN H2 AND ECO-FRIENDLY LIQUID FUELS TO BOOST MARKET GROWTH BETWEEN 2022 AND 2030
4.2 ARTIFICIAL PHOTOSYNTHESIS MARKET, BY REGION
FIGURE 6 ARTIFICIAL PHOTOSYNTHESIS MARKET IN NORTH AMERICA TO EXHIBIT HIGHEST CAGR DURING FORECAST PERIOD

5 MARKET OVERVIEW

5.1 INTRODUCTION
5.2 MARKET DYNAMICS
FIGURE 7 ARTIFICIAL PHOTOSYNTHESIS MARKET: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES
FIGURE 8 ENERGY-RELATED CO2 EMISSIONS, 1990–2019 (GT CO2)
5.3 PATENT ANALYSIS
TABLE 2 ARTIFICIAL PHOTOSYNTHESIS: INNOVATIONS AND PATENT REGISTRATIONS, JUNE 2017–FEBRUARY 2022
5.4 CASE STUDY ANALYSIS
  5.4.1 US AIR FORCE PLANS FOR TRANSITION TO SUSTAINABLE AVIATION FUEL
    5.4.1.1 Problem statement
    5.4.1.2 Solution
  5.4.2 PROCTOR AND GAMBLE’S OATH FOR CARBON NEUTRALITY BY 2040
    5.4.2.1 Problem statement
    5.4.2.2 Solution
5.5 KEY CONFERENCES AND EVENTS IN 2022 & 2023
TABLE 3 ARTIFICIAL PHOTOSYNTHESIS: DETAILED LIST OF CONFERENCES & EVENTS
5.6 GOVERNMENT AGENCIES AND OTHER ORGANIZATIONS
TABLE 4 GOVERNMENT AGENCIES AND OTHER ORGANIZATIONS
5.7 TECHNOLOGICAL ANALYSIS
5.8 TRENDS/DISRUPTIONS IMPACTING VARIOUS PROBABLE END USERS
FIGURE 9 REVENUE SHIFT FOR ARTIFICIAL PHOTOSYNTHESIS PROVIDERS
5.9 ECOSYSTEM
TABLE 5 ARTIFICIAL PHOTOSYNTHESIS MARKET: ECOSYSTEM
5.10 INDICATIVE PRICING ANALYSIS
TABLE 6 AVERAGE PRICE OF TITANIUM DIOXIDE, BY REGION, QUARTER ENDING DECEMBER 2021

6 ARTIFICIAL PHOTOSYNTHESIS MARKET, BY APPLICATION

6.1 INTRODUCTION
6.2 HYDROCARBONS
6.3 HYDROGEN
6.4 CHEMICALS

7 ARTIFICIAL PHOTOSYNTHESIS MARKET, BY TECHNOLOGY

7.1 INTRODUCTION
7.2 PHOTO-ELECTRO CATALYSIS
7.3 CO-ELECTROLYSIS
7.4 OTHERS
  7.4.1 NANOTECHNOLOGY
  7.4.2 HYBRID PROCESS

8 GEOGRAPHICAL ANALYSIS

8.1 INTRODUCTION
FIGURE 11 REGIONAL SNAPSHOT: ARTIFICIAL PHOTOSYNTHESIS MARKET IN NORTH AMERICA TO EXHIBIT HIGHEST CAGR DURING FORECAST PERIOD
FIGURE 12 ARTIFICIAL PHOTOSYNTHESIS MARKET SHARE (VALUE), BY REGION, 2021
TABLE 7 ARTIFICIAL PHOTOSYNTHESIS MARKET, BY REGION, 2020–2030 (USD THOUSAND)
8.2 NORTH AMERICA
FIGURE 13 NORTH AMERICA: REGIONAL SNAPSHOT
TABLE 8 ARTIFICIAL PHOTOSYNTHESIS PROJECTS IN NORTH AMERICA
  8.2.1 BY COUNTRY
TABLE 9 ARTIFICIAL PHOTOSYNTHESIS MARKET IN NORTH AMERICA, BY COUNTRY, 2020–2030 (USD THOUSAND)
    8.2.1.1 US
      8.2.1.1.1 Growing demand for clean energy generation and emphasis on R&D of artificial photosynthesis technology
      8.2.1.1.2 Macro factors
TABLE 10 US: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (MILLION STANDARD CUBIC FEET PER DAY)
TABLE 11 US: GREENHOUSE GAS EMISSIONS, 2013–2017 (MILLION TONS OF CO2)
    8.2.1.2 Canada
      8.2.1.2.1 Increasing demand for green hydrogen is driving research activities for artificial photosynthesis
      8.2.1.2.2 Macro factors
TABLE 12 CANADA: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (MILLION STANDARD CUBIC FEET PER DAY)
TABLE 13 CANADA: GREENHOUSE GAS EMISSIONS, 2013–2017
(MILLION TONS OF CO2)
8.3 ASIA PACIFIC
FIGURE 14 ASIA PACIFIC: REGIONAL SNAPSHOT
TABLE 14 ARTIFICIAL PHOTOSYNTHESIS PROJECTS IN ASIA PACIFIC
  8.3.1 BY COUNTRY
TABLE 15 ARTIFICIAL PHOTOSYNTHESIS MARKET IN ASIA PACIFIC, BY COUNTRY, 2020–2030 (USD THOUSAND)
    8.3.1.1 China
      8.3.1.1.1 Growing research and development activities for sustainable hydrogen generation
      8.3.1.1.2 Macro factors
TABLE 16 CHINA: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
TABLE 17 CHINA: GREENHOUSE GAS EMISSIONS, 2013–2017
(THOUSAND TONS OF CO2)
    8.3.1.2 Japan
      8.3.1.2.1 Increasing funding by national R&D agency for establishing large-scale hydrogen supply chain
      8.3.1.2.2 Macro factors
TABLE 18 JAPAN: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
TABLE 19 JAPAN: GREENHOUSE GAS EMISSIONS, 2013–2017
(THOUSAND TONS OF CO2)
    8.3.1.3 South Korea
      8.3.1.3.1 Surging investments by government supporting hydrogen generation technologies
      8.3.1.3.2 Macro factors
TABLE 20 SOUTH KOREA: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
    8.3.1.4 India
      8.3.1.4.1 Rising focus of Government of India to increase share of renewables
      8.3.1.4.2 Macro factors
TABLE 21 INDIA: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
TABLE 22 INDIA: GREENHOUSE GAS EMISSIONS, 2013–2017
(THOUSAND TONS OF CO2)
8.4 EUROPE
TABLE 23 ARTIFICIAL PHOTOSYNTHESIS PROJECTS IN EUROPE
  8.4.1 BY COUNTRY
TABLE 24 ARTIFICIAL PHOTOSYNTHESIS MARKET IN EUROPE, BY COUNTRY, 2020–2030 (USD THOUSAND)
    8.4.1.1 Germany
      8.4.1.1.1 Growing investments in R&D activities for artificial photosynthesis
      8.4.1.1.2 Macro factors
TABLE 25 GERMANY: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
TABLE 26 GERMANY: GREENHOUSE GAS EMISSIONS, 2013–2017
(THOUSAND TONS OF CO2)
    8.4.1.2 France
      8.4.1.2.1 Surging use of renewable energy sources for sustainable development
      8.4.1.2.2 Macro factors
TABLE 27 FRANCE: HYDROGEN PRODUCTION CAPACITIES AT REFINERIES, 2013–2017 (MILLION STANDARD CUBIC FEET PER DAY)
TABLE 28 FRANCE: GREENHOUSE GAS EMISSIONS, 2013–2017
(MILLION TONS OF CO2)
    8.4.1.3 Italy
      8.4.1.3.1 Surging adoption of green technologies to curb carbon emission
      8.4.1.3.2 Macro factors
TABLE 29 ITALY: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
    8.4.1.4 Spain
      8.4.1.4.1 Rising expenditure on R&D activities on artificial photosynthesis
      8.4.1.4.2 Macro factors
TABLE 30 SPAIN: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
    8.4.1.5 Rest of Europe
      8.4.1.5.1 Macro factors
TABLE 31 REST OF EUROPE: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, BY COUNTRY, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)
8.5 REST OF THE WORLD
  8.5.1 MACRO FACTORS
TABLE 32 REST OF WORLD: HYDROGEN PRODUCTION CAPACITY AT REFINERIES, BY COUNTRY, 2013–2017 (THOUSAND STANDARD CUBIC FEET PER DAY)

9 COMPETITIVE LANDSCAPE

9.1 OVERVIEW
9.2 COMPETITIVE SCENARIO & TRENDS
TABLE 33 ARTIFICIAL PHOTOSYNTHESIS MARKET: DEALS, JANUARY 2016–
FEBRUARY 2022
TABLE 34 ARTIFICIAL PHOTOSYNTHESIS MARKET: OTHERS JANUARY 2016–
FEBRUARY 2022
9.3 RECENT MARKET DEVELOPMENTS
TABLE 35 KEY DEVELOPMENTS IN ARTIFICIAL PHOTOSYNTHESIS MARKET, JANUARY 2012–FEBRUARY 2022
9.4 INDUSTRY CONCENTRATION
9.5 COMPANY EVALUATION QUADRANT
  9.5.1 STAR
  9.5.2 PERVASIVE
  9.5.3 EMERGING LEADER
  9.5.4 PARTICIPANT
FIGURE 16 COMPETITIVE LEADERSHIP MAPPING: ARTIFICIAL PHOTOSYNTHESIS MARKET, 2020
TABLE 36 ARTIFICIAL PHOTOSYNTHESIS: COMPANY FOOTPRINT
TABLE 37 COMPETITIVE BENCHMARKING: DETAILED LIST OF KEY PLAYERS
9.6 COMPANY PRODUCT COVERAGE
TABLE 38 ARTIFICIAL PHOTOSYNTHESIS: COMPANY PRODUCT COVERAGE

10 COMPANY PROFILES

(Business overview, Products offered, Recent Developments, MNM view)*
10.1 ORIGINAL EQUIPMENT MANUFACTURERS
  10.1.1 ENGIE
TABLE 39 ENGIE: BUSINESS OVERVIEW
FIGURE 17 ENGIE: COMPANY SNAPSHOT 2020
TABLE 40 ENGIE: DEALS
  10.1.2 PANASONIC CORPORATION
TABLE 41 PANASONIC CORPORATION: BUSINESS OVERVIEW
FIGURE 18 PANASONIC CORPORATION: COMPANY SNAPSHOT 2020
TABLE 42 PANASONIC CORPORATION: OTHERS
  10.1.3 FUJITSU
TABLE 43 FUJITSU: BUSINESS OVERVIEW
FIGURE 19 FUJITSU: COMPANY SNAPSHOT 2020
TABLE 44 FUJITSU: DEALS
  10.1.4 MITSUBISHI CHEMICAL CORPORATION
TABLE 45 MITSUBISHI CHEMICAL CORPORATION: BUSINESS OVERVIEW
TABLE 46 MITSUBISHI CHEMICAL CORPORATION: DEALS
  10.1.5 TOSHIBA CORPORATION
TABLE 47 TOSHIBA CORPORATION: BUSINESS OVERVIEW
FIGURE 20 TOSHIBA CORPORATION: COMPANY SNAPSHOT 2020
TABLE 48 TOSHIBA CORPORATION: OTHERS
  10.1.6 TOYOTA CENTRAL R&D LABS., INC.
TABLE 49 TOYOTA CENTRAL R&D LABS., INC.: BUSINESS OVERVIEW
TABLE 50 TOYOTA CENTRAL R&D LABS., INC.: OTHERS
  10.1.7 SIEMENS ENERGY
TABLE 51 SIEMENS ENERGY: BUSINESS OVERVIEW
FIGURE 21 SIEMENS ENERGY: COMPANY SNAPSHOT 2020
TABLE 52 SIEMENS ENERGY: DEALS
  10.1.8 FUJIFILM CORPORATION
TABLE 53 FUJIFILM CORPORATION: BUSINESS OVERVIEW
TABLE 54 FUJIFILM CORPORATION: DEALS
  10.1.9 TWELVE (FORMERLY KNOWN AS, OPUS 12)
TABLE 55 TWELVE (FORMERLY KNOWN AS, OPUS 12): BUSINESS OVERVIEW
TABLE 56 TWELVE (FORMERLY KNOWN AS, OPUS 12): DEALS
  10.1.10 EVONIK INDUSTRIES AG
TABLE 57 EVONIK INDUSTRIES AG: BUSINESS OVERVIEW
FIGURE 22 EVONIK INDUSTRIES AG: COMPANY SNAPSHOT 2020
TABLE 58 EVONIK INDUSTRIES AG: OTHERS
10.2 R&D INSTITUTES
  10.2.1 BERKELEY LAB
TABLE 59 BERKELEY LAB: OVERVIEW
TABLE 60 BERKELEY LAB: DEALS
  10.2.2 DEUTSCHE AKADEMIE DER NATURFORSCHER LEOPOLDINA
TABLE 61 DEUTSCHE AKADEMIE DER NATURFORSCHER LEOPOLDINA: OVERVIEW
TABLE 62 DEUTSCHE AKADEMIE DER NATURFORSCHER LEOPOLDINA: OTHERS
  10.2.3 INDIAN INSTITUTE OF SCIENCE(IISC)
TABLE 63 INDIAN INSTITUTE OF SCIENCE (IISC): OVERVIEW
  10.2.4 CENTER FOR HYBRID APPROACHES IN SOLAR ENERGY TO LIQUID
FUELS (CHASE)
TABLE 64 CENTER FOR HYBRID APPROACHES IN SOLAR ENERGY TO LIQUID FUELS (CHASE): OVERVIEW
TABLE 65 CENTER FOR HYBRID APPROACHES IN SOLAR ENERGY TO LIQUID FUELS (CHASE): DEALS
  10.2.5 ICIQ
TABLE 66 ICIQ: OVERVIEW
  10.2.6 NEW ENERGY AND INDUSTRIAL TECHNOLOGY DEVELOPMENT ORGANIZATION
TABLE 67 NEW ENERGY AND INDUSTRIAL TECHNOLOGY DEVELOPMENT ORGANIZATION: OVERVIEW
TABLE 68 NEW ENERGY AND INDUSTRIAL TECHNOLOGY DEVELOPMENT ORGANIZATION: DEALS
  10.2.7 UNIVERSITY OF TORONTO
  10.2.8 THE UNIVERSITY OF PAU AND PAYS DE L’ADOUR
  10.2.9 UNIVERSITY OF BOLOGNA
*Details on Business overview, Products offered, Recent Developments, MNM view might not be captured in case of unlisted companies.

11 APPENDIX

11.1 INSIGHTS OF INDUSTRY EXPERTS
11.2 DISCUSSION GUIDE
11.3 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
11.4 AVAILABLE CUSTOMIZATIONS
11.5 RELATED REPORTS
11.6 AUTHOR DETAILS


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