Chart depicting the innovation valley of death on the technology readiness level scale.
Artificial Intelligence, Biomanufacturing, Fabrics, Innovation, Manufacturing, Photonics, Public Private Partnerships, Robotics

The U.S. outspends other nations in r esearch and development and continues to lead the world in innovations and inventions. However, new products are often “stranded in the lab” when we don't have the manufacturing capability, or get developed in other countries such as China, Germany, and South Korea that invest more aggressively in...

Image of AIM Photonics laboratory floor
Biomanufacturing, Fabrics, Facilities, Innovation, Manufacturing, Photonics, Public Private Partnerships, Robotics, Semi-Conductor

Three-quarters of U.S. manufacturers have fewer than 20 employees and do not have extensive research and development capabilities. Given the high costs of product development and their scope of operational challenges, from workforce and regulatory issues to unpredictable disruptions, it is difficult for small manufacturers to maintain...

STEM Talent

The manufacturing skills gap in the U.S. could result in 2.1 million unfilled jobs by 2030, according to a study by The Manufacturing Institute and Deloitte. Finding workers with the right skills has been one of the biggest challenges in the manufacturing sector for more than a decade.

Manufacturing has long been a driver of innovation and...

PowerAmerica Carbide Foundry
Biomanufacturing, Fabrics, Lightweight Materials, Manufacturing, Photonics, Power Electronics

The future of advanced manufacturing in the U.S. is being built at innovative facilities that enable experimentation in process and product development. The people and organizations at these next-generation facilities are part of a collaborative effort to remove barriers of entry and create an ecosystem to build supply chains and provide a path...