50% decrease in greenhouse gases by 2030
Net-zero by 2045
15% reduction in specific water withdrawal by 2030
25% drop in emissions relating to upstream products by 2030
15% drop in specific energy consumption by 2030
We Lead the Way.
WACKER is setting itself new, ambitious goals to achieve net-zero in 2045. The new goals to cut greenhouse gases are science-based targets. In other words, they are consistent with the goal of keeping the global rise in temperature below 1.5 degrees Celsius and therefore comply with the Paris Agreement. WACKER has joined Race to Zero, the UN’s carbon neutrality initiative. We are thus voluntarily committing to the 1.5-degree target and undertaking to issue transparent progress reports on our course toward net-zero.
2030 is a key milestone on our way to meeting this goal. That’s why we’ve set ourselves even more ambitious sustainable development goals:
WACKER Products to Combat Climate Change
Thermally Conductive Specialty Silicones for Electric Vehicles
Most experts agree that the next generation of cars will be electric. The advancement of electromobility is at the top of the automotive industry’s agenda. Various obstacles need to be overcome, however, before electric cars can be mass-produced. A key aspect is how to protect sensitive automotive electronics from overheating.
Dispersible Polymer Powders for Wall Paints
Thanks to their low weight and space-saving packaging, polymer binders for wall paints in powder form reduce CO2 emissions during shipment.

Dispersions and Dispersible Polymer Powders in Thermal Insulation Systems for Buildings
WACKER and Dubai Municipality demonstrate energy-saving, internationally standardized construction technologies in action with two model houses.

Polysilicon, the Most Important Raw Material for Solar Modules
Quartz is the starting material for the production of hyperpure polysilicon, the most important raw material for photovoltaics. Between quartz and hyperpure polysilicon lie not only a number of highly complex working steps that are, technically speaking, extremely sophisticated – but also, in the case of WACKER, over 50 years of experience. All combining to produce the best polysilicon available on the market.

Certified Alternative
In VINNAPAS® eco dispersible polymer powders, WACKER is now offering polymers that are based on acetic acid derived from wood waste.

The Silicone Sealant That Conserves Fossil Resources
With ELASTOSIL® eco, sustainable building is possible across the entire life cycle – from production right up to the finished building.

Adhesives Are What Make Wind Power Possible
the rotor blades – as much as 80 meters long in newer on-shore wind turbines – consist of two half-shells bonded firmly together with reinforcement elements, known as shear webs. These adhesive bonds are capable of transmitting the powerful forces that arise during turbine operation.

Specific Measures and Projects by 2030

Silicon Metal
WACKER is adopting specific projects and measures to meet its new goals. For instance, the company is performing feasibility studies on the extent to which its Norwegian site in Holla can substitute sustainably generated charcoal for the coal currently used in silicon-metal production there. WACKER sees such a move as an important lever in significantly lowering its carbon footprint. Other options available to the company so as to achieve even more sustainable silicon-metal manufacturing processes include the use and storage of carbon and the increased use of hydroelectric and wind power in order to meet the site’s electricity demand.
Silicon metal is a key raw material for producing silicones and for polysilicon, which is used to make solar cells and semiconductor devices. The quantities produced in Holla cover roughly a third of WACKER’s annual demand.

Producing Hydrogen from Renewable Sources
Other WACKER projects are concerned with the value-adding potential of using CO2 as a raw material for chemical products. For instance, WACKER is planning to build a 20-megawatt electrolysis plant – known as RHYME Bavaria – at its Burghausen site. This plant is intended to use renewable electricity to produce hydrogen, which, together with CO₂ from existing production processes, is then converted into methanol in a synthesis plant. The expected capacity of the synthesis plant is 15,000 metric tons per year. Feasibility studies on comparable projects at other sites are underway.
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Electrification
WACKER regards the systematic electrification of its production processes as essential if further progress is to be made in the decarbonization of its manufacturing base. We are already in a very good starting position in this respect. 60 percent of WACKER’s production processes are already electrified – a much higher figure than in many other chemical companies.
“As one of the world’s leading manufacturers of specialty chemicals and polysilicon, we play a major role in the energy transition and in reducing the impact of climate change. Products that enable our customers to bring climate-friendly and resource-efficient products onto the market already make up about two thirds of our portfolio. In the coming years, we intend to significantly expand our portfolio of particularly sustainable products, and make considerable efforts to defossilize our production. We consider that this holds significant potential for our business success.”
Dr. Christian Hartel, President & CEO of Wacker Chemie AG
Our sustainability strategy in detailSustainability library
Code of Conduct
(PDF 788.8 KB) - English
Supplier Code of Conduct
(PDF 355.3 KB) - English
Code of Innovation
(PDF 763.8 KB) - English
Code of Teamwork & Leadership
(PDF 819.3 KB) - English
Code of Safety
(PDF 776.8 KB) - English
Code of Sustainability
(PDF 754.6 KB) - English
Responsible Care
(PDF 356.7 KB) - English
Separate Non-Financial Statement Combined for the WACKER Group and for Wacker Chemie AG
Wacker Chemie AG – Sustainability Report 2019/20 (PDF)
Wacker Chemie AG – Sustainability Report 2019/20 (online)
Wacker Chemie AG – Sustainability Report 2019/20 (Excel tables)
UN Global Compact, Progress Report 2021
(PDF 1.6 MB) - English
2020 Burghausen Environmental Report
(PDF 1.6 MB) - German
2020 Burghausen Emissions Report
(PDF 97.2 KB) - German
2020 Nünchritz Environmental and Emissions Report (German)
Code of Conduct
(PDF 788.8 KB) - English
Supplier Code of Conduct
(PDF 355.3 KB) - English
Code of Innovation
(PDF 763.8 KB) - English
Code of Teamwork & Leadership
(PDF 819.3 KB) - English
Code of Safety
(PDF 776.8 KB) - English
Code of Sustainability
(PDF 754.6 KB) - English
Responsible Care
(PDF 356.7 KB) - English
Separate Non-Financial Statement Combined for the WACKER Group and for Wacker Chemie AG
Wacker Chemie AG – Sustainability Report 2019/20 (PDF)
Wacker Chemie AG – Sustainability Report 2019/20 (online)
Wacker Chemie AG – Sustainability Report 2019/20 (Excel tables)
UN Global Compact, Progress Report 2021
(PDF 1.6 MB) - English
2020 Burghausen Environmental Report
(PDF 1.6 MB) - German
2020 Burghausen Emissions Report
(PDF 97.2 KB) - German
2020 Nünchritz Environmental and Emissions Report (German)
Factsheet Together for Sustainability
(PDF 216.2 KB) - English
Factsheet Integrated Production
(PDF 113.8 KB) - English
Factsheet Strategy
(PDF 584.1 KB) - English
Factsheet Social Audits
(PDF 218.2 KB) - English
Factsheet Animal Wellfare
(PDF 85.3 KB) - English
Factsheet Mass Balance Approach
(PDF 342.0 KB) - English
Factsheet Light Emissions
(PDF 347.3 KB) - English
Factsheet Conflict Minerals
(PDF 170.4 KB) - English
Factsheet Life Cycle Assessments
(PDF 123.3 KB) - English
Factsheet Sustainability Goals SDGs
(PDF 265.3 KB) - English
Factsheet Human Rights
(PDF 144.9 KB) - English
Factsheet Water Stewardship
(PDF 1.8 MB) - English
Factsheet Sustainable Products
(PDF 389.6 KB) - English
Factsheet Climate / CO2
(PDF 220.2 KB) - English
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