daily coverage of the optics & photonics industry and the markets that it serves
Press Releases
Press Release

3 Billion tons less CO2 with photonics - new study by SPECTARIS

Date Announced: 04 Mar 2020

Duesseldorf, Germany -- Photonics technologies can contribute to 3 billion tons less carbon dioxide by 2030. A new study by SPECTARIS, the Fraunhofer Institute, TEMATYS and Messe Munchen shows that photonics applications have the potential to contribute 3 billion tons less CO2 output - the equivalent of 22.2 million diesel trucks all driving 100k miles per yeari - by 2030 (*1).

According to the research, light technologies are already providing solutions for environmental sustainability and climate protection. Photonics – the technical deployment of light – is a chief enabler of efficient, environmentally-friendly resources, materials and processes and a key constituent of technologies used to limit temperature rises.

In 2019 alone, eight examples of photonics technologies resulted in an indirect contribution of 1.13 billion tons CO2 equivalent – such as energy-efficient lighting, fibre optic network communications, optical detection of forest fires, photovoltaics, optical communication in data centres, energy-efficient displays, laser-supported metal recycling, and optical communication in 5G mobile networks - the report shows.

Hazards of climate change

Dr. Bernhard Ohnesorge, Managing Director Carl Zeiss Jena GmbH and Chairman of the Photonics Trade Association SPECTARIS e.V. said: “Photonics has made it possible to identify the hazards of climate change. It gives us the tools to protect our world. What matters now is that we make sure to use these opportunities wisely.”

Prof. Dr. Reinhart Poprawe, former Director of the Fraunhofer Institute for Laser Technology ILT/RWTH Aachen University – Lecturer in Laser Technology LLT said: “Photonics makes it possible to constructively combine economy and environmental protection.

“This is achieved by both increasing the efficiency of manufacturing processes and producing optimised components for Germany’s transition to renewable energy, particularly through precision work using ultra-short-pulse lasers or by using additive manufacturing processes. Components optimised according to economic and environmental criteria can be found in solar, battery and wind power technologies, for example.”

The results come from the joint Messe Munchen and SPECTARIS study ‘Light as the key to global environment SUSTAINABILITY - High-tech PHOTONICS solutions to protect the environment and preserve resources, in cooperation with Fraunhofer ILT, Fraunhofer Light & Surfaces, TEMATYS and the Photonics21 group.

About Photonics21

Photonics21 is the European Technology Platform (ETP) for photonics, a technology encompassing all of the products and processes around the emission, manipulation and detection of light. Photonics is integral to a wide range of industries that include the medical, healthcare, transport, manufacturing, and telecommunications sectors.

Photonics21 was set up in December 2005 to bring the community of photonics researchers and industries together. The European Commission defined photonics as one of five European Key Enabling Technologies (KET's) in September 2009.

(*1) Based on 100,000 miles annual distance at an average 9 mpg fuel consumption, producing 2.67 kg CO2 from 1 litre of diesel.


Photonics21 Secretariat
c/o VDI Technologiezentrum GmbH
VDI-Platz 1
40468 Duesseldorf

T: https://twitter.com/Photonics21
L: www.linkedin.com/company/photonics21

E-mail: secretariat@photonics21.org

Web Site: www.photonics21.org

Copyright © 2021 SPIE EuropeDesigned by Kestrel Web Services