Siemens Energy is set to develop a major high-rise project in Berlin's Moabit district over the coming years, creating a new corporate campus featuring three towers reaching heights of up to 230 feet. The ambitious development, scheduled for completion by 2029, will include modern office spaces, research facilities, and collaborative areas designed to transform the site into a forward-looking innovation hub. The project will be built on a parking lot at the corner of Sickingenstraße and Wiebestraße, directly at the northwestern edge of the existing Siemens campus grounds.
After extensive planning and a two-phase workshop process, architectural firm Max Dudler emerged as the winning design team, presenting the first visualizations of the complex. The design features three towers of varying heights connected by a shared podium base, creating a distinctive stepped silhouette against the Berlin skyline. The tallest structure will be the most striking element of the ensemble, rising 17 stories to reach 221 feet (67.5 meters) in height. Two additional lower buildings with four and six floors respectively will complement the main tower, creating an architecturally dynamic composition.
The architectural design emphasizes both modern aesthetics and contextual integration with the surrounding historic industrial buildings. At the heart of the campus, planners have designed a generous forum space intended to bring together employees, visitors, and the general public in a shared environment. The complex will house flexible office spaces, an innovation center, research laboratories, executive areas, a conference center, and a food court, combining diverse functions under one roof to promote collaboration and efficiency.
Special attention has been paid to the facade design, which will incorporate materials that reference the neighboring heritage-protected buildings. These include the famous Turbine Hall designed by Peter Behrens, as well as former buildings constructed for AEG and Loewe companies. This approach ensures the new development respects and complements the area's rich industrial architectural heritage while establishing its own contemporary identity.
Sustainability represents a core principle of the project, with planners aiming to set new environmental standards for corporate construction. The structural system will combine CO2-reduced concrete with hybrid wood-concrete composite floors, a building method designed to conserve resources and enable future material recycling. Extensive green roofing and a landscaped atrium will contribute to improving the local microclimate, while geothermal energy systems using energy piles will be integrated to significantly reduce the building's energy consumption.
The architectural team emphasized their commitment to responsible resource management while making the company's innovative capabilities visible throughout the city. Siemens Energy told the building committee that the new construction should underscore the company's role as an internationally leading energy corporation. The design is intended to reflect the corporation's aspirations not only functionally but also in its external appearance and urban presence.
The entrance areas will feature open spaces for arrival and interaction, characterized by distinctive wooden structural elements that create a welcoming atmosphere for visitors and employees alike. These spaces are designed to facilitate natural meeting points and informal collaboration opportunities, supporting the campus's role as an innovation hub.
The new campus will encompass approximately 269,000 square feet (25,000 square meters) of floor space, featuring a mixed-use concept that combines workplaces, research facilities, and meeting zones. This integrated approach allows Siemens Energy to create a location where various departments can collaborate efficiently while providing dedicated space for knowledge exchange and innovation activities. The design promotes cross-departmental interaction and supports the company's research and development objectives.
According to current plans, the company is targeting completion by mid-2029, working in close coordination with city authorities to advance detailed project planning and the necessary zoning procedures. The development process will require careful integration with existing urban infrastructure and compliance with local building regulations. The new campus is expected to play a central role not only for Siemens Energy's operations but also in the long-term transformation and development of the Sickingenplatz area in Moabit, potentially serving as a catalyst for further innovation-focused development in the district.
