INTEGRATIVE SCIENCE COMPLEX, PHASE I LOKEY LABORATORIES UNIVERSITY OF OREGON
i
ii
INTEGRATIVE SCIENCE COMPLEX, PHASE I LOKEY LABORATORIES UNIVERSITY OF OREGON EUGENE, OREGON
SRG PARTNERSHIP | PORTLAND, OREGON | SEATTLE, WASHINGTON | WWW.SRGPARTNERSHIP.COM
1
Completed in 2007, the Lokey Laboratories provide ultra-high performance instrument space while maximizing research collaboration. Centrally located within the Sciences District, the laboratories contain more than 20 highly specialized imaging instruments that support advanced research in materials science and nanofabrication. This signature facility is an integral part of the Integrative Science Complex at the University of Oregon and is associated with the Oregon Nanoscience and Microtechnologies Institute (ONAMI).
2
Constructed predominantly belowgrade, the 26,000 square foot structure is placed directly on bedrock, enhancing building performance characteristics and preserving existing campus open space. To promote interaction, the instrument labs are arranged around a central, skylit collaboration area, bringing together faculty and industry representatives from materials science, molecular biology, genomics, neuroscience and optics. The only portions of the facility that project above grade are the skylight—a sculptural element rising out of the redesigned Science Green—and a small, glazed entrance/lobby structure, carefully situated between two existing research buildings.
3 3
DESIGN CONCEPT BUILDING
The building design addresses several challenges inherent in the building program and site location—most significantly, how to provide a visible entrance to a significant facility that is predominantly underground. The new, glazed lobby space is located at the northwest corner of the site between two existing buildings, Huestis and Streisinger Halls, and aligns with Science Walk, a pedestrian way that connects the majority of existing research facilities in the campus’ Sciences District. From this understated entry the visitor descends 17 feet to the laboratory and instrument areas below. The primary instrument and collaboration spaces are positioned at the opposite southeast corner of the site to avoid undesired vibration conditions and electromagnetic interference (EMI). A diagonal circulation spine visually and physically connects the lowest stair landing to a central, skylit collaboration area.
4
Elevator & Stairs
Offices & Support
Private Partnership Labs XRD Lab
Semiconductor Lab / Support
Nanofabrication Lab Microanalytical Lab Optics / Photovoltaics
Equipment Gallery
HighResolution Lab
Surface Analytical Lab Equipment Gallery
5
The interior design emphasizes openness and transparency. The shared instrument labs for the Center for Advanced Materials Characterization in Oregon (CAMCOR) are arranged around a central collaboration space with an overhead skylight that brings natural daylight into the area. Glass partitions showcase the remarkable instruments and their capabilities for current and potential colleagues while providing separation from the collaboration activities. Glass partitions are used at the Nanofabrication and Semi-Conductor Labs, emphasizing the equipment, operating technicians and services.
6
Where feasible, an equipment service galley rings the back side of the instrument labs and provides easy access to accessory equipment and electrical panels while further isolating the support equipment from the highly sensitive instruments. Exposed structure facilitates easy utility access and are hung ceilings are provided only where necessary to enhance equipment performance. To further minimize vibration and EMI in the instrument space, the facility’s equipment needs are consolidated in the more remote, northwest corner of the site, adjacent to similar functions in adjoining buildings. A new wet mechanical room is located in underutilized existing space, thus removing pumps and other objectionable equipment from the new construction footprint. An unused elevator shaft has been converted to provide a pathway for the building exhaust ductwork. The new fan units are placed on the roof of the adjoining building’s elevator/ stair core and are shielded, both visually and acoustically. The original floor plan includes unfinished areas for expansion of the adjacent zebrafish facility.
SITE
Science Green, the open space located on top of the new laboratories, reinforces the labs’ campus prominence along 13th Avenue, accommodating public assembly, commencement ceremonies and similar events. The design emphasizes a generous, flat lawn area defined by an oval circulation path that clarifies campus movement patterns. Within the oval lawn, a small paved area and the projecting skylight mark the collaboration space below. On the northern perimeter of the Green, the new lobby is arranged on axis with Science Walk and leads through the public junction between Huestis and Streisinger Halls.
7 7
SPACE NAME
MODULES
NET SF % NSF
GROSS SF
CAMCOR
PROGRAM The Lokey Laboratories serve a wide array of advanced technology research and foster a synthesis of science users and equipment. The program contains an integrated series of functions, including the Center for Advanced Materials Characterization in Oregon (CAMCOR), Preparation Labs, Nanofabrication, Partnership Labs, and Office/Conference/Lobby space. CAMCOR
Most of the facility’s highly sensitive characterization instrumentation is located here and the space showcases the instruments and fosters collaboration among users. Compatible instruments are consolidated into common spaces to maximize area utilization and smaller spaces provide specially-controlled environments for specific instruments. Most of the CAMCOR spaces require stringent vibration performance characteristics (NIST-A) and tight temperature tolerance (68-72°F with 0.5°F variation within any 12-hour period). The program accommodates a central collaboration area that includes informal conference areas as well as open office workstations for technical staff.
Surface Analytical Microanalytical High Resolution Transmission Electon Microscope Near-Field Scanning Optical Microscope Atomic Force Microscope Auger Electron Spectroscopy X-Ray Diffractometer Equipment Galley Space Optics Photo-voltaics
1,375 836 634 154 123 123 245 860 1,200 1,370
SUBTOTAL PREPARATION LABS
6,920
Soft Material Prep Biological Prep 1 Biological Prep 2 Inorganic Prep/Polishing Coatings Grinding Lab
1.00 1.00 1.00 0.50 0.50 0.67
281 162 182 200 281 144
SUBTOTAL NANOFABRICATION
4.67
1,250
Semiconductor Lab Nanofabrication Lab Photo-Lithography Clean Deposit Imprinter TFEM
4.00
1,266 670 396 217 215 195
SUBTOTAL PARTNERSHIP LABS
4.00
2,959
Laboratory Prep/Future Laboratory
6.00 4.00
2,374 1,148
SUBTOTAL TOTAL LABORATORY OFFICE/CONFERENCE/LOBBY
10.00 28.67
3,522 14,651
Application Manager Office Collaboration Area Interactive Area Office Conference Business Office Lobby
5 1 1 2 1 1 1
512 849 473 257 225 377 1,325
SUBTOTAL
TOTALS 8
12
34%
10,448
7%
2,088
18%
5,382
21% 79%
6,259 24,179
4,018
21%
6,276
18,669
100%
30,455
STAIR TO GRADE
22 24 25
20
22
27 22
20
14
16 26
UNEXCAVATED AREA
10 12
17
16 Photo-Lithography
11
NANOFABRICATION 17 Clean Deposition
19
22
18LAB Imprinter 14 SEMICONDUCTOR 19 TFEM 15 NANOFABRICATION LAB 16 PHOTO-LITHOGRAPHY 17 CLEAN DISPOSITION PARTNERSHIP LABS 18 IMPRINTER 20 Laboratory 21 Optics / Photovoltaics 19 TFEM
22 15
18
29
23
EXISTING BUILDING
28
22
22
22
PARTNERSHIP LABS 23
29
CAMCOR 1 Surface Analytical 2 Microanalytical 3 High-Resolution CAMCOR 4 TEM 1 SURFACE ANALYTICAL 5 NSOM 2 MICROANALYTICAL 6 AFM 3 HIGH-RESOLUTION 7 AES 4 TEM 8 XRD 5 NSOM 6 AFM PREPARATION LABS 7 AES 9 Soft Material Prep 8 XRD 10 Biological Prep 11 Inorganic Prep/Polishing PREPARATION LABS 12 Coatings 9 SOFT MATERIAL PREP 13 Grinding Lab 10 BIOLOGICAL PREP 11 INORGANIC PREP/POLISHING NANOFABRICATION 12 COATINGS 14 Semiconductor Lab 13 GRINDING LAB 15 Nanofabrication Lab
OFFICE/CONFERENCE/LOBBY 20 LABORATORY 22 Office 21 OPTICS/PHOTOVOLTAICS 23 Collaboration / Interactive Areas
2
24 Conference
25 Lobby OFFICE/CONFERENCE/LOBBY
8
22 OFFICE SUPPORT 23 COLLABORATION/INTERACTIVE AREAS 26 Dry Mechanical Room 24 CONFERENCE 27 Wet Mechanical Room 25 LOBBY 28 Zebrafish Expansions Space 29 Eguipment Gallery
7 6
3 22
SUPPORT
5
21 1
4 29
N
26 27 28 29
DRY MECHANICAL ROOM WET MECHANICAL ROOM ZEBRAFISH EXPANSIONS SPACE EQUIPMENT GALLERY
9
PREPARATION LABS
The Preparation Labs represent six shared laboratory support functions serving a variety of user research needs. Many samples brought to the facility need additional processing in order to be analyzed with the imaging instruments or used in the Nanofabrication Lab. These Preparation Labs more closely resemble traditional wet chemistry laboratories and require conventional laboratory benches, plumbed services and chemical fume hoods. NANOFABRICATION
The Nanofabrication area includes the Semiconductor Lab, Nanofabrication Lab, Photo-Lithography and a series of smaller dedicated instrument spaces. The Semiconductor Lab is used to conduct materials research related to this specific industry and can be used for the University’s semiconductor internship program during the summer months. The adjacent Photolithography and Preparation Labs are directly related to the Semiconductor Lab and contain equipment for substrate preparation, deposition, etching and baking. A Nanofabrication Lab and other specialized instrument spaces complete this suite. LEFT:
SURFACE ANALYTICAL LAB
RIGHT: NANOFABRICATION LAB 10
11
PARTNERSHIP LABS
The Partnership Labs are key elements and provide flexible laboratory and support space available for lease by industry and academic colleagues. The Labs provide traditional bench laboratory space to facilitate potential use as wet chemistry laboratories with chemical fume hoods. These areas can be configured as a single, large, open area with bench space assigned as needed, or subdivided into discreet spaces and accessed individually via an internal hallway. OFFICE/CONFERENCE/LOBBY
Office space is divided between private and prospective industry/academic colleagues. Five private offices for application managers are located adjacent to the CAMCOR space with an adjoining meeting/kitchen area. Three more offices for visiting colleagues are also provided. A shared conference room accommodates 12–15 people for meetings and audio-visual presentations. Additional open office workstations and informal meeting areas are provided in the central CAMCOR collaboration area. At the upper lobby a small business office provides a visible presence and identity for visitors entering the building at grade. LEFT:
HIGH RESOLUTION LAB
RIGHT: CONDUCTOR LAB 12
13
CENTER FOR ADVANCED MATERIALS CHARACTERIZATION IN OREGON (CAMCOR) INSTRUMENTATION NANOFABRICATION ZEISS ULTRA SEM FEI HELIOS
MICRO ANALYTICAL LAB CAMECA SX50 EPMA CAMECA SX100 EPMA FEI QUANTA ESEM/UPSEM
SURFACE ANALYTICAL LAB TO-F SIMS XPS AUGER QTOF AFM SNOM ELLIPSOMETER
HIGH RESOLUTION LAB FEI TITAN FEI TECNAI
X-RAY DIFFRACTION LAB BRUKER D8 DISCOVERY XRB PHILIPS PANALYTICAL XRD SCINTAG 1 SCINTAG 2 BRUKER SMART APEX
LEFT:
EQUIPMENT GALLERY
RIGHT: COATINGS LAB 14
15
HB
HA 6
5
4
3
2
1
A B C D E F G
N H
STRUCTURAL PLAN 16
17
18
19
PROJECT DATA
PROJECT TEAM
LOCATION
ARCHITECT + INTERIORS
LANDSCAPE ARCHITECT
LIGHTING
University of Oregon Eugene, Oregon
SRG PARTNERSHIP, INC 621 SW Morrison Street, Suite 200 Portland, OR 97205 (503) 222-1917
CMGS LANDSCAPE ARCHITECTS 160 E. Broadway Eugene, OR 97401 (541) 485-7385
LUMA 808 SW Third Avenue, Suite 450 Portland, OR 97204 (503) 226-3905
LABORATORY PLANNER
COST ESTIMATING
CONTRACTOR
RESEARCH FACILITIES DESIGN 3965 Fifth Avenue, Suite 400 San Diego, CA 92103 (619) 297-0159
RIDER LEVETT BUCKNALL 805 SW Broadway, Suite 2750 Portland, OR 97205 (503) 226-2730
LEASE CRUTCHER LEWIS 550 SW 12th Avenue Portland, OR 97205 (503) 223-0500
MEP & CIVIL ENGINEER
EMI/RFI ENGINEER
PHOTOGRAPHY
BALZHISER & HUBBARD ENGINEERS 100 W 13th Avenue Eugene, OR 97401 (541) 686-8478
VITA TECH 115 Juliad Court, Suite 105 Fredericksburg, VA 22406 (540) 286-1984
LARA SWIMMER PHOTOGRAPHY 2514 41st Avenue SW Seattle, WA 98116 (206) 284-5213
STRUCTURAL ENGINEER
FIRE, LIFE & SAFETY
CATENA CONSULTING ENGINEERS 1111 NE Flanders Street, Suite 206 Portland, OR 97232 (503) 984-8576
CREIGHTON ENGINEERING 210 N University Rd, Suite 100 Spokane, WA 99206 (509) 921-9455
VIBRATION ENGINEER
RESEARCH PARTNER
COLIN GORDON & ASSOCIATES P.O. Box 39 San Bruno, CA 94066 (650) 358-9577
ENERGY STUDIES IN BUILDINGS LABORATORY (ESBL) 103 Pacific Hall 5231 University of Oregon Eugene, OR 97403 (541) 346-5647
SIZE
26,000 SF CONSTRUCTION BUDGET
$9.5 Million FINAL CONSTRUCTION (INCLUDING ADDED SCOPE)
$12.3 Million CONSTRUCTION COMPLETION
October 2007 EFFICIENCY RATIO NET/GROSS SF
63.5%
20
SRG PARTNERSHIP | PORTLAND, OREGON | SEATTLE, WASHINGTON | WWW.SRGPARTNERSHIP.COM
21
621 SW MORRISON, SUITE 200 PORTLAND, OREGON 97205 (503) 222-1917 110 UNION, SUITE 300 SEATTLE, WASHINGTON 98101 (206) 973-1700 WWW.SRGPARTNERSHIP.COM
22