Global Photocatalytic Materials and Coatings Market (2022 to 2032) – With AIRE, Bionic Technology Holding and DrivePur, among others –

DUBLIN–(BUSINESS WIRE)–The “The Global Market for Photocatalytic Materials and Coatings 2022-2032” report has been added to from offer.

The development of photocatalytic processes, materials and chemicals offers opportunities to solve environmental problems such as air purity, pollutant degradation and to provide a clean and sustainable environment via environmental remediation, photoreduction of CO2 in fuels, water separation, H2 production, indoor bacterial and viral disinfection. and appropriate organic syntheses. Photocatalytic materials and chemicals provide environmentally friendly, safe and effective disinfection methods for home use.

Among the many semiconductor heterogeneous photocatalysts, titanium dioxide (TiO2) is the most widely used due to its photostability, intrinsic electronic and surface properties, non-toxicity, cost effectiveness, and environmental friendliness. the environment. However, TiO2 photocatalysis suffers from several drawbacks, leading to the development of other materials such as nanoscale zinc oxide, g-C3N4 carbon nitride, metal-organic compounds (MOFs), photocatalysts based on graphene, BiOCl, black phosphorus. ZnFe2O4, all of which are covered in this report.

Applications of photocatalytic materials and coatings include:

  • Self-sterilizing, durable clear coatings that kill viruses and bacteria for application in the home, corporate offices, restaurants and bars, healthcare facilities, industrial workplaces, hospitality and retail stores

  • Degradation of pollutants and maintenance of air quality

  • Self-cleaning architectural glass

  • Processes for treating industrial emissions

  • Self-cleaning automotive glass

  • Roof coatings to reduce pollution from degradation of sulfur and nitrogen oxides

  • Road and tunnel coatings

  • Medical (self-disinfecting coatings)

  • Self-cleaning exterior paints

  • Coatings for the elimination of VOCs and odors in public spaces

  • Water purification

  • Air purification (indoor)

  • Self-cleaning solar cell coatings

Applications utilize the self-cleaning, anti-fog, antimicrobial or water splitting properties. The antimicrobial use of photocatalysis involves three components: exposure to light, a photosensitizer, and molecular oxygen. These three components combine to produce reactive oxygen species that effectively kill a wide variety of microorganisms. Their use is growing in domestic applications to provide long-term disinfection.

In indoor environments, most surfaces, such as ceramic tiles, window glass or paper, gradually become coated with organic materials such as oils, dirt and smoke residue and become clogged. The use of photocatalytic coatings which are activated under visible light irradiation can solve these problems. Companies are now actively researching solutions that kill bacteria using light sources commonly found in homes (near UV and visible light), including photocatalytic processes that kill bacteria using light sources commonly present in homes (close to UV and visible light); Photocatalytic processes that produce powerful disinfectants (eg ClO2); and Combinations of photocatalytic processes with other chemicals that increase antimicrobial activity, particularly substances commonly used in cleaning products such as chelators and surfactants.

Report content includes:

  • Market drivers and trends

  • Latest Product and Technology Developments 2020-22

  • Antiviral and antimicrobial applications

  • Photocatalytic coatings in glass, building and construction, pollutant degradation, indoor air filtration, water treatment, medical facilities

  • In-depth evaluation of photocatalytic materials including titanium dioxide, zinc oxide, organometallic frameworks (MOFs), ZnFe204, carbon nitride, silica carbide, graphene oxide, BiOCl and phosphorus black

  • Global Market Revenue, Historical and Forecast to 2032

Companies cited


  • AM Technology Ltd. (Airlite)

  • Bionic Technology Holding B.V.

  • Cardinal Glass Industries

  • Crystal/Tronox

  • Daicel FineChem Limited

  • Diatomix, Inc.

  • DrivePure

  • EnvisionSQ

  • Fumin Co.,Ltd

  • Green Earth Nano Science, Inc

  • Green Millennium, Inc.

  • Green Science Alliance

  • Heidelberg cement

  • Ishihara Sangyo Kaisha, Ltd.

  • Italcementi Group

  • Kaltech Co., Ltd.

  • Kastus

  • Kon Corporation

  • Kronos International, Inc.

  • Life Air Iaq Ltd.

  • MACOMA Environmental Technologies, LLC

  • Maeda-Kougyou Co, Ltd

  • Marusyo Sangyo Co.,Ltd

  • MVX Protex

  • Nanjing High Technology Nano Material Co., Ltd. (HTNano)

  • Nanoksi Finland Oy

  • NanoPhos SA

  • NanoPhylle

  • Nanotechnology Surface Company

  • Nanowave Co.,Ltd

  • Nanoyo Group Pte Ltd

  • Nippon Sheet Glass Co.,Ltd

  • NOF Company

  • n-tec GmbH

  • NTT Advanced Technology Company

  • Pacific Paint (Boysen) Inc.

  • Panahome Corporation

  • panasonic

  • IKE PCN Materials

  • PJI Contract Pte Ltd.

  • ProfMOF AS

  • Pureti, Inc.

  • Restore

  • Saint-Gobain glass

  • Shin-Etsu Chemical Co.,Ltd

  • Showa Denko KK

  • Souma Co., Ltd.

  • Quick Coat, Inc

  • Plasmonic Syzygy

  • Taiyo Kogyo Society

  • Thermo King

  • NWT

  • Toshiba Materials, Co., Ltd.

  • toto

  • Toyokosho Co.,Ltd

  • Toyota Tsusho Corporation

  • Ube Exsymo Co., Ltd.

  • United States Nanocoat

  • Yield Co., Ltd.

  • Zixilai Environment

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