logo.png

Profile

Bates Masi + Architects LLC, a full-service architectural firm with roots in New York City and the East End of Long Island for over 45 years, responds to each project with extensive research in related architectural fields, material, craft and environment for unique solutions as varied as the individuals or groups for whom they are designed. The focus is neither the size nor the type of project but the opportunity to enrich lives and enhance the environment. The attention to all elements of design has been a constant in the firm’s philosophy. Projects include urban and suburban residences, schools, offices, hotels, restaurants, retail and furniture in the United States, Central America and the Caribbean. The firm has received 43 design awards since 2003 and has been featured in national and international publications including The New York Times, New York Magazine, Architectural Digest, Architectural Record, Metropolitan Home, and Dwell. Residential Architect Magazine selected Bates Masi one of their 50 Architect’s We Love. A gallery exhibition in May 2010 featured the firm’s earlier work from 1960-70.

 

Paul Masi spent childhood summers in Montauk and currently resides in Amagansett. He received a Bachelor of Architecture from Catholic University and a Masters of Architecture from the Graduate School of Design at Harvard University. He worked at Richard Meier & Partners before joining this firm in 1998.

Harry Bates, a resident of East Hampton, received a Bachelor of Architecture from North Carolina State University. After ten years with Skidmore, Owings & Merrill, he was in private practice in New York City for 17 years before moving the firm to Southampton on the East End in 1980. Our offices are currently located in Sag Harbor with plans to relocate to a new LEED Certified office building of our own design in East Hampton.

map.png
arrow-left.png
arrow-right.png

North Main

Lot size: 0.45 acres

Building size: 4,670 sq. ft.

Location: East Hampton, NY

Program: Office & Retail

Many contemporary commercial structures are planned with inherent disposability, minimizing initial cost at the expense of fortitude and long-term usefulness. This owner-occupied project challenges the conventional approach, enhancing the property’s value with durable material systems, adaptable spatial organization, and flexible building surfaces.

Insulated precast fly-ash concrete panels envelop the building’s two large uninterrupted spaces. This long-span sturdy shell will long outlast the typical tenant’s occupancy and accommodate an array of future uses. It is sheltered from the brunt of the elements by a skin of recycled modular wooden shingles held in place by custom stainless steel clips. In the same way that a car’s tires are prolonged by rotation, the panels are transferred from severe- to moderate- weathering facades and individually flipped front-to-back to maximize the material’s utility without using toxic, high-maintenance protective paints and stains. Inside, the same clips hold finished ceiling surfaces and light fixtures to the structural concrete planks. Rearranging and modifying these elements permits future users to adapt the spaces’ lighting, reflectance, acoustics, and technology without disturbing the permanent structure.

Similarly, air conditioning, voice, data, and electrical systems are modified by lifting the modular panels of a proprietary raised floor set atop the subfloor. Each panel accepts a replaceable finish layer fitted for grip, reflectance, sound attenuation, and wear-resistance.

In addition to enhancing the building’s value, the qualities of durability and flexibility also lay the foundation for its LEED Certification. Unlike many “green” buildings, this project attends to basic construction elements instead of relying on auxiliary technologies to achieve LEED credits. For instance, while the precast concrete panels are essential to the structure and envelope, they also contain an integrated insulation layer to outperform cast-in-place concrete in energy efficiency. These panels are spaced apart and pierced to introduce light wells and clerestories that reduce reliance on mechanical ventilation and artificial lighting. The wooden siding panels, once weathered to obsolescence, comprise a completely biodegradable product free of synthetic adhesives, fasteners, chemical coatings, or finishes. On the roof an array of modular planting trays insulates the building and diverts roof run-off water from the storm drains. Similarly sized photovoltaic panels may later replace some or all of these planting tray modules.

By simplifying the structure’s configuration, minimizing building technologies, facilitating future adaptation and superceding current regulations with LEED Certification criteria, the project acquires the attributes of “timelessness”; it will outlast its contemporaries and extend our natural resources.

email

Submit