UV Radiometer Market Size, Share, Opportunities, And Trends By Radiation Type (Ultraviolet A, Ultraviolet B, Ultraviolet C), By End-user (Meteorology, Medical & Healthcare, Printing, Others), And By Geography - Forecasts From 2023 To 2028

  • Published : Mar 2023
  • Report Code : KSI061614485
  • Pages : 135

UV radiometers offer the ability to monitor electromagnetic radiation from light sources with wavelengths between 100 and 400 nm. Three different spectral bands, A, B, and C, can be used to separate the UV wavelength range. The UV radiometer measures the brightness of UV systems and lamps. The effectiveness of UV LEDs, UV lamps, and UV radiators is evaluated by Controlling the quality of UV gluing and curing, and Artificial optical radiation is used to assess workplace security. The rising need for UV radiometers in different applications such as industrial, biochemistry, food processing, medical, and other industries is driving growth in this market. Moreover, growing awareness about the negative effects of UV radiation is propelling the growth of this market.

The rising demand in the industrial sector will grow the UV radiometer market

To identify and gauge the strength of ultraviolet radiation, UV radiometers are widely utilized in a variety of industrial operations. In the food, pharmaceutical, chemical, water, and wastewater treatment sectors, UV radiometers are used. The UV radiometer's capacity to assess both UVA and UVB enables users to take prompt remedial action. Understanding how light impacts their products at different phases of production aids them in maintaining product quality. In January 2022, according to NIST, A 2 m monochromator is used in Beamline 4's general-purpose radiometric beamline to scatter radiation from SURF III. Its normal incidence wavelength range from 115 nm to 320 nm and the radiant flux of the dispersed beam is precisely determined by an Absolute Cryogenic Radiometer (ACR) at the end of the beamline, which is then utilized to calibrate the response of photodetectors. The research has had a significant influence on accurate UV detection for sectors like semiconductor photolithography and UV curing. It enables comprehension and analysis of the behavior of different solid-state photodetectors. This application shows the use of ultraviolet radiometers is important in the industrial sector and has the potential to grow this market.

The growing emphasis on sanitization in medical and healthcare will drive the UV radiometer market demand.

In the sector of medicine and healthcare, UV radiometers are used to find and gauge UV radiation levels. The major source of cleanliness and sterilization in hospitals is UV radiation, which may change its wavelength to kill bacteria or damage their genetic material (DNA or RNA). UV radiometers are necessary for UV sterilization lamp testing and quality control.

The primary uses of UV radiometers in healthcare are for their ability to disinfect and sterilize surfaces in hospitals cleanliness is the most important aspect which will help to drive the market growth for UV radiometers. UV radiometers are also required for quality assurance and testing of the ultraviolet sterilizing lamps used in hospitals.

According to the WHO, in 2019 it was estimated that each year in the US, 48 million illnesses, 128,000 hospital admissions, and 3,000 deaths are caused by infections. There are 1 in 300 risks that an infection or bacterium contact during medical treatment would cause damage to the patient. In the European Union, 3.2 million people contract HAIs annually, and 37 000 of them pass away as a direct result. Healthcare-associated infections (HAIs) might be reduced by more than 50% by using straightforward, low-cost infection prevention and control methods, such as good hand hygiene. This certainly shows that due to rise in demand for prevention from infection and bacterial in hospitals and medical care will propel the market growth for the UV radiometers

During the forecast period, the European region will propel market growth.

Due to increased research and development efforts by several private firms in this area, the UV radiometers market in Europe is anticipated to expand at a substantial rate during the projected period. Also, to keep their products reliable, these firms are concentrating on offering high-quality services with little chance of failure. The need for UV radiometers in this region has increased as a consequence of the expanding use of UV radiometers in sectors including food processing, chemical manufacture, and biochemistry, among others. In November 2022, the new Cure-Met UV radiometer launched by Gigahertz-Optik a German-based company is made to withstand the extreme heat and UV or blue light levels often seen in UV curing operations. The radiometer continuously measures, displays, and adjusts its internal temperature as well as its readout to account for variations in temperature coefficients. When linked to the USB port, the Cure-Met gets recharged. These applications and developments by investors and companies will be led to the demand and awareness of UV radiometers which will increase this market.

Market Key Developments.

  • In June 2022, Using GaN-based sensor technology, GenUV launched a multi-functional UV portable meter MG -08 that offers excellent accuracy for measuring UV source power. This new multi-purpose portable UV radiometer has a removable sensor probe (compatible with different sensor types), a 4.0-digit LCD, a 9V battery, and two buttons for simple function control.

Uv Radiometer Market Scope:


Report Metric Details
 Growth Rate  CAGR during the forecast period
 Base Year  2021
 Forecast Period  2023 – 2028
 Forecast Unit (Value)  USD Billion
 Segments Covered Radiation Type, End-User, And Geography
 Regions Covered North America, South America, Europe, Middle East and Africa, Asia Pacific
 Companies Covered Photo Electronics Srl, Miltec UV, Opsytec Dr. Gröbel GmbH, Vilber, Dymax, GenUV, Topcon Technohouse Corporation, Hanovia, Avantes, International Light Technologies Inc.  
 Customization Scope Free report customization with purchase



  • By Radiation Type
    • Ultraviolet A
    • Ultraviolet B
    • Ultraviolet C
  • By End-User
    • Meteorology
    • Medical & Healthcare
    • Printing
    • Others
  • By Geography
    • North America
      • USA
      • Canada
      • Mexico
    • South America
      •  Brazil
      • Argentina
      • Others
    • Europe
      • Germany
      • UK
      • France
      • Spain
      • Others
    • Middle East and Africa
      • Suadi Arabia
      • UAE
      • Others
    • Asia Pacific
      • China
      • Japan
      • South Korea
      • India
      • Australia
      • Others


1.1. Market Overview

1.2. Market Definition

1.3. Scope of the Study

1.4. Market Segmentation

1.5. Currency

1.6. Assumptions

1.7. Base, and Forecast Years Timeline


2.1. Research Data

2.2. Assumptions


3.1. Research Highlights


4.1. Market Drivers

4.2. Market Restraints

4.3. Market Opportunities

4.4. Porter’s Five Force Analysis

4.4.1. Bargaining Power of Suppliers

4.4.2. Bargaining Power of Buyers

4.4.3. Threat of New Entrants

4.4.4. Threat of Substitutes

4.4.5. Competitive Rivalry in the Industry

4.5. Industry Value Chain Analysis


5.1. Introduction

5.2. Ultraviolet A

5.3. Ultraviolet B

5.4. Ultraviolet C


6.1. Introduction

6.2. Meteorology

6.3. Medical & Healthcare

6.4. Printing

6.5. Others


7.1. Introduction

7.2. North America

7.2.1. USA

7.2.2. Canada

7.2.3. Mexico

7.3. South America

7.3.1.  Brazil

7.3.2. Argentina

7.3.3. Others

7.4. Europe

7.4.1. Germany

7.4.2. UK

7.4.3. France

7.4.4. Spain

7.4.5. Others

7.5. Middle East and Africa

7.5.1. Suadi Arabia

7.5.2. UAE

7.5.3. Others

7.6. Asia Pacific

7.6.1. China

7.6.2. Japan

7.6.3. South Korea

7.6.4. India

7.6.5. Australia

7.6.6. Others


8.1. Major Players and Strategy Analysis

8.2. Emerging Players and Market Lucrativeness

8.3. Mergers, Acquisitions, Agreements, and Collaborations

8.4. Vendor Competitiveness Matrix


9.1. Photo Electronics Srl

9.2. Miltec UV

9.3. Opsytec Dr. Gröbel GmbH

9.4. Vilber

9.5. Dymax

9.6. GenUV

9.7. Topcon Technohouse Corporation

9.8. Hanovia

9.9. Avantes

9.10. International Light Technologies Inc.

Photo Electronics Srl

Miltec UV

Opsytec Dr. Gröbel GmbH




Topcon Technohouse Corporation



International Light Technologies Inc.