DBB Science + Technology 2022 by Davis Brody Bond

Firm Profile

Davis Brody Bond — an award-winning architectural practice founded in 1952 with offices in New York and Washington, DC — brings strong, successful design to academic buildings and planning projects. For more than 40 years, an important part of our practice has been devoted to the design of facilities for colleges and universities ranging from complex graduate research facilities to campus infrastructure projects. This work often involves inserting new structures into densely settled campus or urban sites, with contexts characterized by older buildings, venerable landscape features, and a clearly defined scale and massing. In the design of any campus facility, we understand the importance of maintaining a campus fabric and relating new construction to neighboring buildings and outdoor spaces.

We have worked with leading colleges and universities nationwide, including Brown, Columbia, Cornell, Harvard, Princeton, and Yale Universities; University of Pennsylvania; Rutgers University; University of Connecticut; New York University; Northwestern University; St. John’s University; University of Virginia; University of Wisconsin; Vanderbilt University; and the State University of New York and the City University of New York systems. Our campus commissions cover a full range of classroom and laboratory buildings, libraries, performing and studio arts spaces, and student and faculty offices. We strive to understand the specific qualities of each institution’s academic and social life, and to enhance them by the most effective means possible.

We are well aware how important information technologies have become to education and research. We emphasize a flexible systems approach to support inevitable changes in technological requirements and integrated design of circulatory, mechanical, and structural components. This also allows for developments in teaching programs and increased instructional capabilities. Additionally, we have recently completed 4 laboratory/office projects similar to PPIC scope with construction costs more than $30M. We enjoy fostering collaborative relationships with faculty, students, and administration and our work always respects the physical and cultural environment in which it is situated. This interactive, attentive approach guides our design process and enables us to transform challenges into award-winning architecture.

Princeton University Neuroscience & Psychology Building Princeton, NJ

Science + Technology Facilities Design Approach

DESIGN PROCESS Successful planning and design for academic facilities grows out of an effective working collaboration between the architects and the future users of a building. This collaboration begins with a thorough programming phase that establishes a clear understanding of needs and criteria in discussions with faculty and administrative representatives. This is followed by a conceptual design phase, in which we develop and evaluate scenarios together with the building users to determine the most appropriate solutions for function, form, and budget. The dialogue between architect and client is crucial throughout the design process, particularly when allocating space and budget resources to provide the best possible functional and technical facilities and future flexibility. In the early stages, we look for operational implications, subtleties of program, and adjacencies that can be optimized for efficiency. As planning progresses, we maximize flexibility with infrastructure that can support conversion to new functions over time. ADAPTABILITY + FLEXIBILITY Planning for evolving information technologies is one of the most important design criteria for academic buildings. We recommend that telecommunications systems be integrated into the design process from the beginning. Providing discreet but accessible data services has become a major design challenge. Penetrations, conduits, and raceways must be sized for today’s cabling types and projected future developments. In particular, research facilities, with their growing reliance on electronic media and problem-based learning, require special focus on flexible access to technology. The extraordinary speed of change in information technology is creating new patterns of interaction and demand for new services. Davis Brody Bond tracks and anticipates these developments as part of our academic practice. We strive for adaptable building layouts that can accommodate future learning and research layouts, without sacrificing functionality in the present.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

INTEGRATED BUILDING SYSTEMS Elegant solutions require creative integration of building systems: structure, mechanical, lighting and telecommunications. As an example, our design for Vanderbilt’s Eskind Biomedical Library conceals open cable trays in the dropped edges of coffered ceilings along the main duct runs, feeding a grid of custom floor boxes that can serve a range of workstation layouts. This arrangement allowed the Library to swiftly and easily upgrade from copper to fiber optic data lines without disrupting academic programs. In addition, the Library’s book stacks are convertible to workstations, posing a particular lighting design challenge. Davis Brody Bond developed a system appropriate for stack lighting that can be converted for glare-free VDT use. In addition to libraries and special collections facilities, we have designed media centers, computer instructional facilities, computing centers and audiovisual studios. FUTURE CHANGE Today’s academic buildings must be designed for change. With a library, for example, there are a host of potential future impacts: resource sharing with other facilities, acquisition rates of print versus electronic material, and new curricula and teaching methods. Specific predictions may be impossible, but good design can anticipate a healthy range of future possibilities for expansion, conversion, and reconfiguration. Our approach to the inevitability of change is to fully address current needs with spaces and systems that can be effectively updated and reused over the full life of the building.

Princeton University Neuroscience + Psychology Complex Princeton, NJ

This complex strengthened Princeton’s developing natural sciences precinct with two connected buildings for the Department of Psychology and the Neuroscience Institute, a new initiative that put the University at the forefront of brain and behavioral sciences research. Bringing together faculty from a spectrum of departments, the project’s laboratories, offices, and teaching space were designed to create a new interdisciplinary community.

Princeton is Davis Brody Bond’s second major collaboration with Madrid-based architect Rafael Moneo. We developed architectural details, construction documents, and a BIM digital model from his concept design. We also planned the laboratory layouts, accommodating equipment from benchtop instrumentation to a four-ton MRI scanner. Achieving the intent of the luminous ribbed glass façade was a particular challenge, and we worked closely with glass foundries and wall systems manufacturers to reach an appropriate solution that combines custom elements and standard framing. The serene, gently curved building forms complement their site; two of the psychology building’s five stories nestle into a slope to reduce the complex’s apparent size. Interior shafts bring daylight into the building, and facades of cast glass bisected by clear windows provide diffuse sunlight to offices and lecture rooms.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Despite necessarily dense energy use in lab areas, the Neurosciences Complex is on track for LEED Silver certification thanks to extensive conservation measures anticipated to reduce energy costs 15% from ASHRAE standards. The double-layered façade both cuts solar heat gain and heavily insulates the building. This reduces summer cooling needs, allowing the use of a chilled beam system. In winter, mechanical systems are augmented with extremely efficient heat recovery. Occupancy controls are used for lighting and non-critical ventilation throughout. Stormwater collection and low-flow fixtures optimize water usage.

Princeton University Neuroscience & Psychology Building Princeton, NJ

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Princeton University Andlinger Center Programming Study & Subsequent Reports Princeton, NJ

Davis Brody Bond completed a Programming Study for The Andlinger Center for Energy and the Environment to expand upon the existing strengths of Princeton University’s School of Engineering and Applied Science and introduce significant specialized laboratory space at the Engineering Quadrangle. The Andlinger Center will include a new 110,000 sf building, the renovation of 87 Olden (formerly known as Carl Fields Center, and as Osborn Clubhouse), and enhanced connections to Bowen Hall. In approaching building concepts, we have prioritized the guidance of the Campus Plan, especially with regard to developing open green space and quads reminiscent of the Core Campus. In light of this as well as considerations of vibration control, and light control the concept locates over half the total new area below grade. The Center will provide shared laboratory facilities including clean room space, an imaging center, and labs for research involving photonics, environmental sensors, and solar cell technology. On site office space for the Center’s director and faculty will ensure leadership and success to the mission of the Center. The Andlinger Center presents a special opportunity to integrate cutting-edge green building materials and technologies. The baseline for sustainability and energy performance is established by the Princeton University Design Standards, Sustainable Design Guidelines, which require, at minimum LEED® Silver equivalency. Following our work on the Andlinger Center, we led an additional study at the School of Engineering and Applied Science (SEAS). The ‘Facilities Modernization Master Plan’ is 340,000 sf and includes assessment of the existing engineering school buildings, and recommendations for their upgrade over time. It focuses on existing building systems, how they should be renewed or replaced to serve the research and other needs of the school well into the future. In addition to administration, classrooms and teaching labs, the buildings also contain many research labs.

Princeton University Andlinger Center for Energy & the Environment

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Columbia University The Jerome L. Greene Science Center New York, NY

Davis Brody Bond has been working with Columbia University since 1990 on their historic campus, as well as on other sites owned by the University. Over the course of over 25 years, we have completed approximately 20 projects for Columbia comprising services from master planning and programming studies, to renovations and the design and construction of new facilities. For the past 11 years, we have been working on the development of Columbia University’s Manhattanville campus, a three phase, 17-acre urban academic environment that encompasses than 6.8M sf of space for teaching, research, civic, cultural, recreational, and commercial activity. Davis Brody Bond served as the Executive Architect / Architect of Record with Renzo Piano Design Workshop on the first group of buildings.

The Jerome L. Greene Science Center — the intellectual home for Columbia’s expanding research initiative in Mind, Brain and Behavior — is the first building completed as part of the new campus. The nine-story building, 458,000 sf building is the largest that Columbia has ever built and the biggest academic science building in New York City. It brings together a constellation of global leaders in neuroscience, engineering, statistics, psychology, and other disciplines, with the common goal of exploring the causal relationships between gene function, brain wiring, and human behavior. This research will have profound implications for the treatment of brain illness — probing the root causes of neurodegenerative diseases, such as Parkinson’s, Alzheimer’s, and motor neuron diseases, among others.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

The building is designed for the kind of social interaction and interdisciplinary thought that is essential for innovatove ideas to thrive. The Center’s design employs a unique laboratory concept consisting of four neighborhoods articulated by two intersecting axes. On the research levels, the North-South axis is dedicated to circulation, while the East-West axis is an active area that includes meeting rooms and break spaces on each floor and a 120-seat lecture space at the top floor. These spaces make up a key feature of the research experience at the Center, encouraging collaboration among the scientists by interspersing circulation, connecting stairs, double-height spaces, and a variety of scales of meeting rooms and other interaction spaces within the research and support spaces.

Columbia University The Jerome L. Greene Science Center New York, NY

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Columbia University Northwest Corner Building New York, NY

The Northwest Corner Building spans over an existing gymnasium to fill the last unbuilt site in McKim Mead and White’s plan for Columbia’s Morningside Campus. The facility is Columbia’s first interdisciplinary science space and bridges to the adjoining chemistry and physics buildings, completing a ring of all the physical science and engineering departments. The 14-story building provides 21 lab suites. Mezzanines maximize usable space, giving every lab zone two levels of adjacent offices. A library at the campus level consolidates electrical engineering, physics, chemistry, and biology collections on two generously daylit floors. The campus and street below are connected by double-height spaces that serve the whole academic community, including a cafe and 150-seat lecture hall. The Broadway entry breaks down the campus’ formidable perimeter, opening to the neighborhood and the University’s Manhattanville expansion to the north.

Davis Brody Bond worked closely with Pritzker Prize laureate Rafael Moneo to realize his design vision in the demanding New York construction market. We developed and prototyped multiple alternatives for the corrugated metal façade, which expresses the complex structure spanning over the existing gym, before settling on custom aluminum extrusions as an optimal resolution of appearance and cost. We were also responsible for the leading-edge lab and systems planning. Lab modules accommodate multiple disciplines with services delivered via umbilicals from an overhead carriage. Utility walls power all equipment. Lab alcoves can be customized with fume hoods, instrument benches, or additional workstations.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

The Northwest Corner Interdisciplinary Science building was designed to achieve LEED Silver and Labs21 criteria and in fact has been awarded LEED Gold, reflecting Davis Brody Bond’s efforts to identify sustainability potentials throughout the design and construction phases. In association with Rafael Moneo, Design Architect & Moneo Brock Studio, Project Architect. Selected Awards • 2011 Best Project Award in Higher Education/ Engineering News Record New York • 2011 Greater New York Construction User Council Outstanding Project Award • 2011 Society for College and University Planning Merit Award, Excellence in Architecture for a New Building 23

Columbia University Northwest Corner Building New York, NY

DAVIS BRODY DAVIS BOND SCIENCE BRODY BOND + TECHNOLOGY SCIENCE + TECHNOLOGY 2022 2021

Columbia University Northwest Corner Building New York, NY

US National Science Foundation Deep Underground Science and Engineering Laboratory (DUSEL) Homestake, SD Subterranean experiments play a crucial role in particle physics research, but the US currently lacks a world-class underground facility. To provide the required state-of-theart facility, our team is working directly with scientists of the University of California at Berkeley and the South Dakota School of Mines and Technology along with the National Science Foundation to develop the Deep Underground Science and Engineering Laboratory (DUSEL) in the former Homestake gold mine in Lead, South Dakota. Descending as far as 7,400 feet below the earth’s surface, Homestake is the northern hemisphere’s deepest mine, and DUSEL will be the world’s largest and deepest underground laboratory. Davis Brody Bond worked in concert with Arup on the underground infrastructure, tunnel layouts, lab and support design, and safety protocols for DUSEL to create both a liveable and functional environment for the scientists and their experiments. In addition to seminar rooms and emergency command centers, the two firms have also focused on user amenities deep within the complex including a cafeteria, conference rooms and academic lounges also to be used as emergency areas of refuge.

DBB worked in concert with Arup on the underground infrastructure, tunnel layouts, lab & support design, and safety protocols for DUSEL to create both a liveable and functional environment for the scientists and their experiments.

DUSEL will occupy much of the existing caverns and shafts, and will also include new, tailor-made research chambers. The existing mine infrastructure will be totally overhauled to prepare the site for research and operations at surface level, 300 ft, 4,850 ft, and 7,400 ft down. Upon completion, DUSEL will be the world’s premier underground research campus. Its centerpiece will be a vast cavern containing an experiment to detect and quantify neutrinos, which can only be done far below the earth, shielded from cosmic rays. An additional 150,000 sf of laboratory, support, and service space will be available for work in physics, geology, hydrology, geoengineering, biology, and biochemistry to make a total of 750,000 sf. A surface station will provide further laboratories, operations support, and a public outreach center. Long Baseline Neutrino Facility Funded in part by the US Department of Energy (DOE) and the European Organization for Nuclear Research (CERN) to further understand the behaviour of particle physics, the Long Baseline Neutrino Facility located in Lead, South Dakota, will house the world’s largest neutrino detector. In 2015, Arup enabled Fermilab, one of the most prominent high energy physics research facilities in the US, to develop the underground facility that will house the experiment known as DUNE, the Deep Underground Neutrino Experiment. Davis Brody Bond collaborated with Arup and Dangermond Keane on the conceptual phase of the project.

DUSEL will be the world’s deepest research facility, constructed in an expanded gold mine.

Existing mine shaft. DUSEL will occupy much of the existing caverns and shafts, and will include new, tailor-made research chambers.

The centerpiece of the project will be a vast cavern containing an experiment to detect and quantify neutrinos,

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Vanderbilt University Medical Center Medical Research Building IV Nashville, TN

Vanderbilt University Medical Center’s expansion needs conflicted with the limits of their already densely developed campus. Davis Brody Bond’s Master Plan proposed specific, creative solutions to grow within existing constraints by phasing construction and adding new floors to existing buildings. Upon completion of the Master Plan, DBB was retained to design Medical Research Building IV. We met Vanderbilt’s requirement for accelerated delivery with a two phase approach. Phase I added three research floors and a mechanical level on top of an existing building, giving the University 90,000 sf of new space in fourteen months. During this time, the superstructure for a much larger Phase 2 was erected over an auditorium that had to remain open during construction; 24’ deep post-tensioned concrete trusses support the lab levels and contain the main mechanical plant. This solution provides 400,000 sf of stateof-the-art biomedical research laboratories with virtually no expansion of the Medical Center’s footprint. The vertical stacking also creates optimal adjacencies for interdisciplinary research, systems infrastructure, and circulation. Given the evolving nature of wet bench research, DBB designed a highly flexible work environment. Labs are arranged in 22’ modules with alcoves for specialty uses such as fume hoods and tissue culture rooms. Ceilingmounted service connections and mobile storage units allow easy reconfiguration of lab benches. Double-height lounges and seminar rooms provide further opportunities for collaboration. The University has commended MRB IV as “our most efficient and productive building.” The project is the first US application of Venturi Wedge induction, which saved approximately $2,400,000 in Phase 1 construction costs alone. Air handling units use fan wall technology to minimize their carbon footprint and lab exhaust is subject to heat recovery. New chiller and electrical infrastructure in MRB IV supports the entire Medical Center campus. The facades are clad in glass with cast stone bases that relate to nearby Eskind Library (also designed by DBB) and the core campus. A new auditorium lobby connects the Library arcade into a campus system of covered walkways. Entrance pavilions extend the vocabulary of limestone and granite from the wider campus into the brick precinct of the Medical Center.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Cornell University Energy Recovery Linear Accelerator Lab and Cryogenic Plant Ithaca, NY

Davis Brody Bond collaborated with Arup on the design of this 250,000-sf research lab and cryo-plant for Cornell University. In response to the steeply sloped site, the lab building is designed as a cascade of volumes worked into the landscape. The lowest level is a vast physics workshop that engages the existing Cornell Electron Storage Ring and houses the new Energy Recovery Linear Accelerator and X-ray experiment facilities. Upper levels step back to create narrower floorplates for daylit labs, offices, and conference facilities. The adjacent cryo-plant houses supercooled liquids in an underground vault with surface-level cooling towers and an electric substation concealed in a sculpted topography inspired by contemporary landscape art. Collaborative workshops with faculty, graduate students, and the campus facilities group during programming and design were essential to a mutual understanding of scientific, scope, and architectural needs. DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

The curved plan follows both the route of the Linear Accelerator and the arc of the hillside. Roof courtyards, views of the wetlands to the south, and daylight throughout reinforce the connection with nature. The lab and cryo-plant’s green roofs and landscaped terraces preserve the greenbelt mandated by Cornell’s campus plan, and their low profile maintains vistas from the Campus Road. All facilities are designed for a minimum LEED Silver certification. Stormwater management is a particular environmental consideration: the southern area of the site is the lowest point of the campus watershed and in the 100year flood plain of nearby Cascadilla Creek. We developed a two-part solution to drain overflow from the green roofs to an underground catch basin and moderate the remaining run-off with planted embankments and a riparian buffer zone at the creek edge. 33

Northwestern University Ford Motor Company Engineering Design Center Evanston, IL

Eliminating traditional departmental boundaries, the Ford Design Center integrates Northwestern’s Mechanical, Civil, Biomedical, and EECS Engineering Departments. Bringing these programs together in one flexible, clearly arranged building allows them to share resources and ideas, energizing the academic environment. Generous transparency throughout the interior spaces encourages cross-disciplinary awareness and exchange. Teaching and studio activities are accommodated in unpretentious loft spaces, while smaller team meeting rooms and study areas support focused collaboration. Specialized spaces house a machine shop, rapid prototyping facilities, engineering labs, and fabrication halls.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

The LEED silver rated building incorporates numerous sustainable design measures: • Natural daylight in 75% of interior spaces, including below-grade floors • High performance glazing • Mechanized solar tracking sunshades • Raised floor air displacement system • A stormwater retention basin for irrigation • Highly insulated walls and roof • High recycled content materials

DAVIS BRODY DAVIS BOND SCIENCE BRODY BOND + TECHNOLOGY SCIENCE + TECHNOLOGY 2022 2021

University of Connecticut Pharmacy / Biology Building Storrs, CT

Davis Brody Bond’s work for the University of Connecticut successfully resolves a complex design process. We were originally commissioned to design a facility for the University’s highly-regarded pharmacy program; several months into the project, the site was changed and three floors of Evolutionary Biology labs were added. Davis Brody Bond worked closely with both departments, each of which had a large and demanding building committee, and resolved many substantial and legitimate conflicts.

The resulting 226,000 sf building has a robust image but remains respectful of its campus context. The design is a composition of rectangular volumes, each serving a major program element. The largest volume contains six floors of research laboratories, a three-story block houses teaching spaces, and a copper-clad volume contains offices. The focal point of the composition is a glass-walled atrium serving all the building’s users. In addition to laboratories, the building provides a library/learning center, two 120-seat lecture halls, a vivarium, a garden of medicinal plants, and a Nuclear Magnetic Resonance facility. The School is carefully sited to divide what was an overly large and little used exterior space into two well-defined campus quadrangles. New trees and seating ensure these quads will be well used for study and socializing.

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Significant energy saving measures include a glycol loop to recover heat from exhaust air, variable frequency drives on most fans and pumps, superefficient lighting ballasts, and lighting control systems in common areas tied into a Building Management System that cycles illumination levels based on occupancy. Selected Awards • Award of Merit / New Construction, 2006 Connecticut Building Congress Project Team Awards

DAVIS BRODY BOND SCIENCE + TECHNOLOGY 2022

Selected Clients SCIENCE + TECHNOLOGY • ARCO Chemical Company Newton Square, PA • Brown University, Providence, RI • Columbia University & Columbia University Medical Center New York, NY • Cornell University & Cornell University Medical School, Ithaca, NY • Deep Underground Science and Engineering Laboratory (DUSEL) Homestake, SD • Estée Lauder Inc., Various Locations • Harvard Medical School, Boston, MA • L’Oréal, Various Locations • Memorial Sloan-Kettering Cancer Center, New York, NY • Mount Sinai School of Medicine New York, NY • New York Structural Biology Center Cryogenic Electron Microscopy Facility, New York, NY • New York University Polytechnic Institute, Brooklyn, NY • Northwestern University Chicago & Evanston, IL • Princeton University, Princeton, NJ • Procter & Gamble Gillette Irapuato, Mexico • Rockefeller University, New York, NY • Stony Brook Uniiversity Stony Brook, NY • University of Connecticut, Storrs, CT • University of Maryland Biotechnology Institute, Baltimore, MD • University of Virginia Health Sciences Division, Charlottesville, VA • University of Wisconsin Health Sciences Division, Madison, WI • Vanderbilt University Medical Center Nashville, TN • Valéo Automotive Parts Manufacturer Various Locations • Yale University, Yale/New Haven Hospital, New Haven, CT

RESIDENTIAL • The Durst Organization New York, NY • Lincoln Center for the Performing Arts New York, NY • The Olnick Organization New York, NY • The Related Companies New York, NY • Solow Residential New York, NY • Strivers Gardens Realty, LLC New York, NY • Zeckendorf Development New York, NY

CIVIC/CULTURAL • American Museum of Natural History New York, NY • Birmingham Civil Rights Institute Birmingham, AL • Brooklyn Botanic Garden, Brooklyn, NY • District of Columbia Public Library Washington, DC • The Federal Reserve Bank of New York, New York, NY

• The Frick Collection, New York, NY • Ghana National Construction Corporation, Bolgatanga, Ghana • Governors Island Governors Island, NY • Harvard Club of New York City New York, NY • Human Rights in ChinaNew York, NY • Irish Arts Center, New York, NY • The Library of Congress Architect of the Capitol Culpeper, VA • Lincoln Center for the Performing Arts New York, New York • Lower Manhattan Cultural Council New York, NY • Malcolm X and Dr. Betty Shabazz Memorial and Education Center New York, NY • Martin Luther King, Jr. Center for Nonviolent Social Change Memorial & Library, Atlanta, GA • The Museum of Modern Art New York, NY • National Great Blacks in Wax Museum Baltimore, MD • National Mall Trust, Washington, DC • National September 11 Memorial & Museum at the World Trade Center Foundation New York, NY • New York Public Library, New York, NY • The Perelman Center for the Performing Arts at the World Trade Center New York, NY • The Port Authority of New York and New Jersey, New York, NY • Queens Borough Public Library Queens, NY • RECenter, East Hampton, New York • Republic of South Africa Embassy to the United States Washington, DC • Smithsonian Institution Washington, DC • U.S. Department of State 1970 World Exposition Osaka, Japan • U.S. Department of the Interior National Park Service Various Locations • U.S. Department of State Bureau of Overseas Buildings Operations (OBO) Worldwide Locations • U.S. General Services Administration New York, NY & Bowie, MD • Wildlife Conservation Society Bronx Zoo, Bronx, NY

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Davis Brody Bond, LLP Architects and Planners

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Steven M. Davis FAIA

ACADEMIC • Brown University, Providence, RI • Chesapeake College, Wye Mills, MD • The City University of New York Baruch College, New York, NY • Central Connecticut State Univ. New Britain, CT • Columbia University Morningside Heights Campus, Manhattanville Campus, & Medical Center New York, New York • Cornell University, Ithaca, New York • Dillard University, New Orleans, LA

One New York Plaza Suite 4200 New York, NY 10004 tel (212) 633 4700 www.davisbrodybond.com Business Development & Press Inquiries: Julie Hewitt newbusiness@davisbrody.com

• Harvard University Medical School Boston, MA • Lincoln Ctr. for the Performing Arts Juilliard School of Music & The School of American Ballet New York, NY • Massachusetts Inst. of Technology Cambridge, MA • Mount Sinai School of Medicine New York, NY • New York University, New York, NY • New York University Polytechnic Institute, Brooklyn, NY • Northwestern University Chicago & Evanston, IL • Princeton University, Princeton, NJ • Rensselaer Polytechnic Institute Troy, NY • Rockefeller University, New York, NY • Rutgers University New Brunswick & Newark, NJ • Sarah Lawrence College Bronxville, NY • State University of New York Binghampton, Buffalo & Amherst, NY • Stony Brook University StonyBrook, NY • University of Connecticut, Storrs, CT • University of Maryland Biotechnology Inst., Baltimore, MD • University of Pennsylvania Philadelphia, PA • Univ. of Virginia, Charlottesville, VA • University of Wisconsin, Madison, WI • Vanderbilt Univ. & Medical Center Nashville, TN • Yeshiva University Cardozo Law School, New York, NY • Eagle Academy for Young Men Co-sponsored by the NYC SCA and 100 Black Men of New York, Inc. Bronx, NY • Harlem Children’s Zone Community Center & Charter School, New York, NY • New Haven Public Schools New Haven, CT • NYC School Construction Authority New York, NY • Speyer Legacy School, New York, NY

HEALTHCARE • Beth Israel Medical Center New York, NY • Bronx-Lebanon Hospital Center Hunt’s Point Primary Care Center Bronx, NY • Brookdale University Hospital Medical Center Brooklyn, NY • Columbia University Medical Center New York-Presbyterian Hospital Morgan Stanley Children’s Hospital of New York New York, NY • Cornell University Medical College Ithaca, NY • Harvard University Medical School Boston, MA • Hospital for Special Surgery New York, NY • Irving Center for Clinical Research New York, NY • Memorial Sloan-Kettering Cancer Ctr. New York, NY • Mount Sinai Medical Center New York, NY • Mount Sinai Queens, Queens, NY • Northwestern University Medical School Chicago, IL • Queens Hospital Center, Jamaica, NY • St. Barnabas Hospital Bronx, NY • St. Luke’s-Roosevelt Hospital Center New York, NY • St. Vincent’s Hospital & Medical Center New York, NY • University of Virginia Health Sciences Center, Charlottesville, VA • Vanderbilt University Medical Center Nashville, TN • Yale University New Haven, CT

William H. Paxson AIA Carl F. Krebs FAIA Christopher K. Grabé FAIA, LEED AP David K. Williams AIA

Davis Brody Bond, LLP Architects and Planners One New York Plaza, Suite 4200 New York, NY 10004 www.davisbrodybond.com