Carbon Capture Technology Coatings Report 2022: Market Growth Opportunities/Analysis –

Dublin–(Business Wire) — “Carbon Capture Coatings: A Technology Growth Opportunity” report added to’s supply.

Growing industrialization and urbanization have increased the amount of carbon dioxide in the Earth’s atmosphere from 393 parts per million (ppm) in 2012 to 414 ppm in 2022.

As carbon emissions increase, governments and carbon capture and storage companies are increasingly focusing on developing new strategies to reduce carbon emissions. Regulators are expected to continue to strengthen environmental policies in the next 5-10 years and impose heavy penalties on industries that fail to meet carbon emission standards. Traditional carbon capture technology can reduce point source emissions, while direct air carbon capture technology is costly for non-point source carbon emission reduction.

Carbon-trapping coatings have promising applications in suppressing non-point source carbon dioxide emissions. These coatings are viable alternatives to traditional coating systems in the architectural, aerospace and defense, automotive, general industrial, healthcare, telecommunications and consumer electronics industries. Stringent global emission standards also encourage the phase-out of solvents containing high VOCs.

The industry is turning to biotechnology that mimics the natural photosynthesis process for carbon capture. Microalgae-based carbon capture coatings offer promising applications in the automotive, general industry, and construction industries. In the next 2-3 years, stakeholders may accelerate technology commercialization and production scale.

There are several manufacturers of polymer-based coatings in the market; however, polymer-based carbon capture coatings are in the final stages of development and are expected to be commercialized within the next 3 to 4 years. With the development of the industry, the prospect of metal-organic framework and nanoparticle-based carbon capture coating technology is expected to grow significantly in the next 4 to 5 years, mainly due to factors such as high carbon uptake, stability, and application scope.

The captured carbon could pave the way for the development of valuable downstream products such as low-carbon fuels and chemical intermediates, reducing the overall cost of these materials. Scaling up hydrogenation and molten electrolysis technologies will also provide stakeholders with a competitive advantage in the market. Public-private partnerships are also expected to increase their investment in building carbon capture storage infrastructure, including pipeline networks.

This study provides an overview of material types and application trends for carbon capture coatings. It includes factors driving the adoption and development of new technologies, challenges facing new technologies, and adoption strategies to increase utility. The study also covers the commercial landscape of technological advancements in carbon capture coatings, including some noteworthy companies.

Companies are increasingly focusing on developing low-cost coating formulations with high-efficiency carbon capture capabilities without compromising mechanical and chemical properties. Strategic collaborations with research universities will play a key role in creating bio-based and nano-formulations with minimal environmental impact, thereby promoting clean energy and a circular economy.

The report identifies the key areas for the development of carbon capture coating technology in different fields, namely

  • Materials, including polymers, composites, nano and bio-based materials

  • Value-added technologies, including hydrogenation and molten electrolysis

  • Applied markets including automotive, aerospace, power, building and construction

Discussion points:

  • What are the emerging technologies for carbon capture coating technology?

  • What are the innovative R&D efforts of new materials to improve carbon capture and absorption?

  • What are the new carbon capture coating materials and application trends and their commercialization stages?

  • What are the growth opportunities for technology developers of carbon capture coating technology?

Key topics covered:

1. Strategic imperatives

  • Why is it getting harder and harder to grow?

  • factors weighing on growth

  • strategic imperative

  • Impact of Three Strategic Imperatives on the Carbon Capture Coatings Industry

  • Growth Opportunities Drive Growth Pipeline Engines

  • research methodology

  • Study Scope and Segmentation

  • Sources of CO2 emissions and their suitability for capture and storage

2. Growth opportunity analysis

  • Carbon capture coatings offer a promising mitigation strategy to reduce carbon emissions from non-point sources

  • Key Features of Carbon Capture Coatings

  • Carbon Capture Coatings: Application Prospects

  • Technology Development of Carbon Capture Coatings in Overcoming Limitations and Unmet Needs

  • Reduction of non-point source carbon emissions drives demand for carbon capture coatings

  • Light blocking substances, cost and availability are the main limiting factors related to carbon capture coatings

3. Technological innovation

  • Mimicking natural carbon capture advances algal paint

  • PEI-functionalized silica and carbon nanotube coatings offer promising applications for carbon capture

  • PEG Carbon Capture Coating Favors High Formate Yield for Downstream Products

  • MgO/carbon nanofiber carbon capture coatings offer promising applications in aerospace and defense

  • Thermal management for building applications will drive the development of carbon capture coatings based on airgel composites

  • Enhanced CO2 absorption capacity is driving development of quinone-based carbon capture technologies

  • High surface area and framework flexibility are driving the need for carbon capture in MOFs

  • Graphene coatings exhibit enhanced carbon capture uptake compared to competing technologies

  • Titanium dioxide-based carbon-trapping coatings offer great promise for optical applications

  • The application of ultrathin coatings with high carbon absorption promotes the development of carbon nanotube carbon capture coatings

4. Innovation landscape

  • Key Stakeholders Actively Participating in R&D of Carbon Capture Coatings

  • Major funding for carbon capture coating technology development

5. Application prospects

  • Carbon Capture Coatings – Comparative Outlook for Application Prospects

6. Intellectual property analysis

  • IP Analysis Shows Increased Patenting Activity for Carbon Capture Coatings 2017-2021

  • Research Universities Most Active in IP Filings Related to Carbon Capture Coating Technology

  • Graphene and PEG for Carbon Capture Coatings Registered Highest Patent Filings 2017-2021

  • Breakdown of Key Assignees of Materials Used in Carbon Capture Coatings 2017-2021

7. Analyst Perspective: Adoption Roadmap for Carbon Capture Coatings

  • Carbon capture coatings for building construction, general industrial use and power generation to gain momentum

8. A Universe of Growth Opportunities

  • Growth Opportunity 1: Expanding Algae-Based Carbon Capture Coatings for Building and Construction Applications

  • Growth opportunity 2: Commercialization of nano- and MOF-based carbon capture coatings with high carbon absorption and stability for power generation, healthcare, aerospace and defense

  • Growth Opportunity 3: Advances in hydrogenation and melt electrolysis to convert captured carbon into valuable downstream products

9. Appendix

  • Technology Readiness Level (TRL): Description

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