The Phil & Penny Knight Campus for Accelerating Scientific Impact (KCASI) is a new initiative to expand the University of Oregon’s strengths in interdisciplinary scientific research and dramatically shorten the timeline between discovery and societal impact. Made possible by a $500 million lead gift from Penny and Phil Knight, co-founder of Nike, who earned a business degree at the UO in 1959, the first phase of this ambitious project is a 160,000-sf world-class facility embracing research, training, and entrepreneurship in a nimble scientific enterprise.
The design features two L-shaped towers that face each other as “clasped hands”, cradling an elevated terrace and courtyard and are joined above by a transparent connector. On the southern façade, a skin of folded glass panels emulates water cascading over rock formations and provides shading for the glass curtain wall behind. Counterbalancing the activity of the public-facing façade, the northern sides of the two towers embrace simplicity in an unadorned glass curtain wall system that reveals the building structure. The design emphasizes transparency, exposing the impact of science to the community.
Inside, the building program is hyper-flexible, enabling research groups to shift focus depending on where discoveries lead and will include innovation spaces, collaborative spaces, core labs, research labs and work areas. Double height research floors allow for a floating faculty office mezzanine, offering an opportunity for greater interdisciplinary exchange, and glass storefronts under deep overhangs at the ground level invite passers-by to approach. A glass-enclosed pedestrian bridge across Franklin Boulevard connects the core campus to this new district, making an elegantly impactful announcement of the campus across this busy thoroughfare.
For this project, Ennead Architects is responsible for design and Bora, as Architect-of-Record, is responsible for overall project management and realization. We share important values, believing in the power of human-centered architecture to invigorate scientific communities in search of new discoveries.
AEI Affiliated Engineers
Shen Milson Wilke