Massachusetts Clean Energy Center

AeroShield specializes in the production of a super-insulating, nanoporous glass material designed for energy-efficient windows. This innovative material, made from silica aerogel, provides optical clarity akin to traditional glass while delivering insulation performance that is 50% superior to standard windows. By integrating AeroShield's technology between two glass panes, manufacturers can significantly enhance the thermal efficiency of their products. Additionally, the payback period for AeroShield-enhanced windows is up to five times faster than that of comparable high-performance windows, making it an attractive option for both manufacturers and consumers. This focus on sustainability and energy efficiency supports industry compliance goals and improves overall product performance.

AeroShield specializes in the production of a super-insulating, nanoporous glass material designed for energy-efficient windows. This innovative material, made from silica aerogel, provides optical clarity akin to traditional glass while delivering insulation performance that is 50% superior to standard windows. By integrating AeroShield's technology between two glass panes, manufacturers can significantly enhance the thermal efficiency of their products. Additionally, the payback period for AeroShield-enhanced windows is up to five times faster than that of comparable high-performance windows, making it an attractive option for both manufacturers and consumers. This focus on sustainability and energy efficiency supports industry compliance goals and improves overall product performance.

Multiscale Systems produces industrial innovations through technical engineering services and a robust in-house R&D program. The company specializes in metamaterial composites and focuses on advanced manufacturing.

AeroShield specializes in the production of a super-insulating, nanoporous glass material designed for energy-efficient windows. This innovative material, made from silica aerogel, provides optical clarity akin to traditional glass while delivering insulation performance that is 50% superior to standard windows. By integrating AeroShield's technology between two glass panes, manufacturers can significantly enhance the thermal efficiency of their products. Additionally, the payback period for AeroShield-enhanced windows is up to five times faster than that of comparable high-performance windows, making it an attractive option for both manufacturers and consumers. This focus on sustainability and energy efficiency supports industry compliance goals and improves overall product performance.

Triton Systems, Inc. (Triton) is an advanced materials, coatings and systems engineering product development firm headquartered near Boston, Massachusetts. Triton selectively combines US Government funds with private equity investments to transition ideas to the marketplace. Founded in 1992, Triton, along with its affiliates, has two locations in Massachusetts, a R&D and manufacturing facility in Fargo, North Dakota, a life science group in Berkeley, California, and a manufacturing site in Domat-EMS, Switzerland.

AeroShield specializes in the production of a super-insulating, nanoporous glass material designed for energy-efficient windows. This innovative material, made from silica aerogel, provides optical clarity akin to traditional glass while delivering insulation performance that is 50% superior to standard windows. By integrating AeroShield's technology between two glass panes, manufacturers can significantly enhance the thermal efficiency of their products. Additionally, the payback period for AeroShield-enhanced windows is up to five times faster than that of comparable high-performance windows, making it an attractive option for both manufacturers and consumers. This focus on sustainability and energy efficiency supports industry compliance goals and improves overall product performance.

Multiscale Systems produces industrial innovations through technical engineering services and a robust in-house R&D program. The company specializes in metamaterial composites and focuses on advanced manufacturing.

Uniqarta specializes in the development of advanced technologies for manufacturing small, ultra-thin integrated circuits (ICs) that can be embedded into everyday materials like paper and plastic. By creating Smart Materials, the company eliminates the need for additional RFID labels, facilitating the advancement of the Internet of Things (IoT). Uniqarta's innovative approach employs laser-enabled assembly techniques, which replace traditional pick-and-place methods with a faster, more efficient massively parallel laser process. This technology addresses integration challenges associated with ultra-thin ICs, allowing electronics manufacturers to produce next-generation products effectively.

Metalmark Innovations, Inc. develops advanced 3D nanostructured coatings designed to treat airborne pollutants and toxins, thereby enhancing indoor air quality. The company offers its innovative materials as coating additives for various applications, including building materials and vehicle interiors. Its technology effectively targets and breaks down harmful substances such as hydrocarbons, carbon monoxide, ozone, PM2.5, volatile organic compounds, odors, and germs in diverse transportation settings, including airplanes, ships, trains, cars, and buses. Founded in 2017 and based in Boston, Massachusetts, Metalmark Innovations aims to address the pressing challenges of air pollution and climate change through its cutting-edge air cleaning solutions. The company was previously known as Aircrew Technologies, Inc. before rebranding in January 2019.

ZwitterCo specializes in advanced membrane solutions for the treatment of highly impaired wastewater, focusing on the development of reverse osmosis and nanofiltration technologies. These innovations enable the effective reuse and recycling of water resources by addressing challenges such as fouling and chemical demands. ZwitterCo's membranes are designed to treat historically unfilterable streams, allowing customers to transform waste into a valuable resource. With features such as chlorine tolerance and resistance to irreversible fouling, the company's technology supports steady performance and durability, making wastewater treatment economically viable for industrial applications.

SiEnergy Systems LLC is an early-stage company commercializing a novel thin film solid oxide fuel cell (SOFC) developed at Harvard University. The technology uses inexpensive silicon-based technology and nanometer scale electrolytes to create SOFCs that operate at a commercially desirable temperature and are scalable to meet various power requirements. Thin film SOFC is a promising technology that provides solutions to cost and reliability challenges of fuel cells today.

Bandgap Engineering specializes in the development of advanced nanostructuring technologies for silicon, focusing on applications in high-efficiency photovoltaic systems and lithium-ion batteries. The company aims to enhance the performance of silicon-based solar cells and battery technologies by employing innovative methods that lower production costs and improve efficiency. By engineering these nanostructured materials, Bandgap Engineering seeks to contribute to the advancement of solar energy solutions and the broader adoption of renewable energy technologies, ultimately supporting the goal of making solar energy competitive with traditional energy sources.