In 2012, the 90,000-sf Molecular Engineering and Sciences Building was completed on the University of Washington Campus. This past summer, the five-story, 78,000-sf Nanoengineering and Sciences Building was completed. The two connected buildings make up a 168,000-sf complex that accommodates growth in the molecular engineering and nanoengineering fields, responds to the evolving interdisciplinary nature of teaching and research, and fits within a historic, high-density area of the UW campus.
The new $87.8 million, ZGF Architects-designed nanoengineering building will house the UW Institute for Nano-Engineered Systems and is specifically equipped for the performance or organic, inorganic, and biomolecular synthesis. The limestone, aluminum and glass curtain wall facility can accommodate students and faculty in a variety of nanoengineering disciplines such as energy, materials science, computation, and medicine.
Photo: Aaron Leitz Photography.
Flexibility of space was a driver for both phases of the complex. Research labs were designed to adapt as the equipment, research, and faculty change. Overhead service carriers above the lab benches allow for researchers to “plug and play” in any location. At the end of each lab there are rooms that can be arranged to house large equipment or specialty research spaces.
In addition to the labs, the new building also includes general-purpose classrooms, conference rooms, and collaboration spaces. Floors two through four are programmed research laboratory spaces. The first floor includes two highly adaptable classrooms and a shared, informal learning center.
Because the nanoengineering building has mainly southern and northern exposures, ZGF needed a strategy to address the added heat loads to the building due to the different orientation from phase one. Radiant flooring is used for heating and cooling purposes and chilled sails are used in the ceilings along the south wall of the office spaces. The units are ceiling-mounted and flush to the ceiling plane.
Photo: Aaron Leitz Photography.
The new facility incorporates numerous sustainability features such as rain gardens and green roofs planted with vegetation to attract native bees. Stormwater runoff will be directed to the roof gardens to reduce runoff to additional drainage systems.
One of the more unique sustainable features is the use of phase-change materials (PCM). PCM is a gel that becomes warm and liquid during the day and solidifies at night. It is encapsulated in walls and ceiling panels of the naturally ventilated spaces and reduces temperature as it changes material states. The PCM is composed of an inorganic material base and is “charged” at night when windows to office spaces are automatically opened to provide a flush of cool air. The PCM has been shown to reduce the temperature around 1.5 to 2 degrees during peek times on the hottest days of the year.
Photo: Aaron Leitz Photography.
The building team included Hoffman Construction Company (GC), KPFF (civil engineering, structural engineering), AEI (MEP), Site Workshop (landscape architecture), Research Facilities Design (lab planning), and Studio SC (graphics, wayfinding signage).
Photo: Aaron Leitz Photography.
Photo: Aaron Leitz Photography.
Related Stories
University Buildings | Aug 7, 2023
Eight-story Vancouver Community College building dedicated to clean energy, electric vehicle education
The Centre for Clean Energy and Automotive Innovation, to be designed by Stantec, will house classrooms, labs, a library and learning center, an Indigenous gathering space, administrative offices, and multiple collaborative learning spaces.
Market Data | Aug 1, 2023
Nonresidential construction spending increases slightly in June
National nonresidential construction spending increased 0.1% in June, according to an Associated Builders and Contractors analysis of data published today by the U.S. Census Bureau. Spending is up 18% over the past 12 months. On a seasonally adjusted annualized basis, nonresidential spending totaled $1.07 trillion in June.
Market Data | Jul 24, 2023
Leading economists call for 2% increase in building construction spending in 2024
Following a 19.7% surge in spending for commercial, institutional, and industrial buildings in 2023, leading construction industry economists expect spending growth to come back to earth in 2024, according to the July 2023 AIA Consensus Construction Forecast Panel.
Mass Timber | Jul 11, 2023
5 solutions to acoustic issues in mass timber buildings
For all its advantages, mass timber also has a less-heralded quality: its acoustic challenges. Exposed wood ceilings and floors have led to issues with excessive noise. Mass timber experts offer practical solutions to the top five acoustic issues in mass timber buildings.
Adaptive Reuse | Jul 6, 2023
The responsibility of adapting historic university buildings
Shepley Bulfinch's David Whitehill, AIA, believes the adaptive reuse of historic university buildings is not a matter of sentimentality but of practicality, progress, and preservation.
University Buildings | Jun 26, 2023
Univ. of Calif. Riverside’s plant research facility enables year-round plant growth
The University of California, Riverside’s new plant research facility, a state-of-the-art greenhouse with best-in-class research and climate control technologies, recently held its grand opening. Construction of the two-story, 30,000 sf facility was completed in 2021. It then went through two years of preparation and testing.
University Buildings | Jun 26, 2023
Addition by subtraction: The value of open space on higher education campuses
Creating a meaningful academic and student life experience on university and college campuses does not always mean adding a new building. A new or resurrected campus quad, recreational fields, gardens, and other greenspaces can tie a campus together, writes Sean Rosebrugh, AIA, LEED AP, HMC Architects' Higher Education Practice Leader.
Standards | Jun 26, 2023
New Wi-Fi standard boosts indoor navigation, tracking accuracy in buildings
The recently released Wi-Fi standard, IEEE 802.11az enables more refined and accurate indoor location capabilities. As technology manufacturers incorporate the new standard in various devices, it will enable buildings, including malls, arenas, and stadiums, to provide new wayfinding and tracking features.
Laboratories | Jun 23, 2023
A New Jersey development represents the state’s largest-ever investment in life sciences and medical education
In New Brunswick, N.J., a life sciences development that’s now underway aims to bring together academics and researchers to work, learn, and experiment under one roof. HELIX Health + Life Science Exchange is an innovation district under development on a four-acre downtown site. At $731 million, HELIX, which will be built in three phases, represents New Jersey’s largest-ever investment in life sciences and medical education, according to a press statement.
Engineers | Jun 14, 2023
The high cost of low maintenance
Walter P Moore’s Javier Balma, PhD, PE, SE, and Webb Wright, PE, identify the primary causes of engineering failures, define proactive versus reactive maintenance, recognize the reasons for deferred maintenance, and identify the financial and safety risks related to deferred maintenance.
