One World Trade Center Technical Information
- Architects1-12: SOM
- Location: 285 Fulton Street, Manhattan, New York, United States
- Topics: Skyscrapers
- Area 13-15: 3,500,000 Sq. Ft. | 325,160 m2
- Construction Years: 2006 – 2014
- Photographs: © James Ewing Photography
One World Trade Center was designed as a memorable architectural landmark — a symbol of the American spirit, with a simplicity and clarity of form that will remain fresh and timeless.
– SOM Architects
One World Trade Center Photographs
One World Trade Center: Form, Facade, and Structure
Designed by David Childs of Skidmore, Owings & Merrill, the tower’s architectural expression is a blend of simplicity and clarity, a design meant to capture both the memory of the past and the optimism for the future. While the adjacent National September 11 Memorial commemorates the tragic events of 9/11, One World Trade Center projects hope and resilience through its crystalline form, a shining example of modern architecture’s ability to inspire and transform.
One World Trade Center’s design is an exercise in geometric clarity and elegance, featuring a crystalline form that evolves as it rises. From its cubic base, the tower’s edges are chamfered back, creating a faceted structure that transitions from a square at its base to an octagon at its midpoint, finally culminating in a perfect square at the top. This form transformation produces a kaleidoscopic effect, as the building reflects light differently throughout the day, changing with the weather and the sun’s position. The tower’s form is symbolic and functional, embodying strength and resilience while maintaining simplicity and timelessness.
The curtain wall, composed of the largest mass-produced glass panels ever used on a skyscraper, adds to the tower’s crystalline beauty. Measuring 5 feet by 13 feet 4 inches, these glass panels span the full height of each floor without intermediate supports, creating a sleek, uninterrupted facade. The glass was designed for aesthetic purposes and to withstand the immense wind loads that a structure of this height endures. This is an engineering feat that pushes the boundaries of modern skyscraper design.
The building’s structural strength is based on a hybrid system combining a reinforced concrete core with a steel perimeter frame. This approach offers significant rigidity and redundancy, allowing the tower to rise a quarter mile into the sky while minimizing material usage. The structure’s aerodynamic form also plays a critical role in reducing wind loads, showcasing how architectural design and structural engineering can work in harmony to achieve both beauty and functionality.
Urban Integration and Public Space Design
One World Trade Center’s urban presence is as much about its relationship with the surrounding city as it is about its towering height. The tower’s connection to the National September 11 Memorial and its surrounding plazas creates a dialogue between the past and the future, offering a space for reflection and a symbol of resilience. Entrances to the building are situated on all four sides, with transparent 60-foot-high glass canopies that invite the public into the space. These portals seamlessly connect the tower’s interior with the surrounding plazas, which are filled with trees, benches, and open spaces that encourage gatherings and reflection.
The building’s base, clad in shimmering glass fins and steel slats, rises 50 feet high, creating a monumental presence that anchors the tower to the ground. The integration of public space at the base not only enhances the pedestrian experience but also provides a connection to the adjacent neighborhoods of Lower Manhattan. This design approach fosters a sense of community in an area once dominated by corporate towers, giving people a place to gather, relax, and remember.
The transparency and openness of the tower’s entrances reflect a departure from the fortress-like designs often associated with post-9/11 architecture. One World Trade Center, instead, embraces public interaction and openness while maintaining the highest security and resilience standards.
Setting New Standards: Innovation in Sustainability and Security
One World Trade Center sets a new benchmark for sustainable skyscraper design, earning a LEED Gold certification for its core and shell. The building’s approach to sustainability extends beyond standard environmental practices, incorporating innovative technologies that optimize energy efficiency and resource management. A high-tech building management system, guided by thousands of sensors, constantly adjusts the tower’s energy use and indoor air quality, ensuring a comfortable environment while minimizing energy waste.
One of the most remarkable innovations is the use of regenerative elevator systems, which generate electricity as the elevators descend, feeding power back into the building’s grid. This system reduces the overall demand for external power, partially self-sustaining the tower. The building also incorporates over 40 percent of post-industrial recycled materials, including structural steel made from 95 percent recycled content and “green concrete” made from fly ash, a byproduct of coal combustion. These sustainable materials reduce the tower’s carbon footprint and contribute to the building’s overall strength and durability.
Security was also a central concern in the design of One World Trade Center. The building’s concrete core, surrounded by steel, forms a robust, redundant structure designed to withstand future threats. The stairwells are extra-wide and pressurized, providing safe evacuation routes in the event of an emergency. At the same time, the ventilation systems are equipped with biological and chemical filters to ensure air quality. Advanced video surveillance and a vehicle screening system add additional layers of security, reflecting the tower’s role as both a civic icon and a secure, modern workplace.
One World Trade Center Plans
One World Trade Center Image Gallery
About SOM
Skidmore, Owings & Merrill (SOM) is one of the world’s leading architectural, urban planning, and engineering firms, renowned for its innovative designs and cutting-edge technology. Established in 1936, SOM has been responsible for many of the world’s most iconic structures, including the Willis Tower, the Burj Khalifa, and One World Trade Center. The firm is recognized for its expertise in high-performance, sustainable architecture, combining aesthetic vision with technical excellence to create timeless, transformative buildings and urban spaces. SOM’s multidisciplinary approach integrates architecture, engineering, and environmental design to shape cities and communities globally.
Notes & Additional Credits
- Principle: David Childs
- Acoustics: Cerami & Associates
- Structural Engineers: WSP Cantor Seinuk
- Geotechnical Engineer: Mueser Rutledge Consulting Engineers
- Construction Manager: Tishman Construction Corporation
- Civil: Philip Habib & Associates
- Landscape Architects: Mathews Nielsen Landscape Architects, Peter Walker Landscape Architecture
- Structural Engineers (Spire): Schlaich Bergermann Partner
- MEP Engineer: Jaros Baum & Bolles
- Vertical Transportation: Jaros Baum & Bolles
- Transportation Engineer: Philip Habib & Associates
- Manufacturers: Kuraray, POHL, Benson Industries, Carvart, Construction Specialties, Lineabeta, Portland Bolt and Manufacturing, Sevasa, Studco, thyssenkrupp
- Site Area: 74,328 square feet
- Building Height: 1,776 feet
- Number of Stories: 104