SEMI NBMC

Taking aim at advancing smart medtech innovation, the SEMI Nano-Bio Materials Consortium (NBMC), in collaboration with the U.S. Air Force Research Laboratory (AFRL), in March 2020 identified 12 organizations from industry and academia as recipients of $20.4 million in funding, leveraging $10.7 million of cost-share from award recipients. Unique to this round – the sixth in NBMC’s eight years – is a pilot program for NBMC and AFRL to collaborate more closely and share more resources. As part of that effort, AFRL is contributing additional funding to seven of the 12 projects to enable its researchers to work alongside industry on the projects in the new AFRL-Industry Co-Development Program. After being matched to a project during pre-RFP discussions – also known as the White Paper Stage – AFRL researchers were designated as NBMC Consortium Project Investigators before collaborating with industry on the second stage of proposal development. Once contract negotiations between NBMC and the proposing entity wrap up, the AFRL investigators will participate in the development of smart medtech innovations. “This is a new way for AFRL researchers to participate as project performers responsible for contributing to project milestones and deliverables, in addition to providing program management oversight that AFRL has employed for past NBMC projects,” said Dr. Jeremy Ward, past NBMC government lead and current participant in the AFRL Entrepreneurial Opportunity Program. “This program should enable technical risk-reduction for industry by leveraging AFRL competencies and U.S. Air Force aeromedical and airmen performance mission connectedness and ultimately help speed the development of dual-use smart medtech,” added Matt Dalton, AFRL Materials and Manufacturing Directorate program manager and NBMC Governing Council member. “We need efficient mechanisms to leverage research being done outside of AFRL,” said Sharma, who is also senior technical lead for Cognitive Neuroscience at AFRL's 711th Human Performance Wing. “If someone is developing a groundbreaking technology that can be helpful for our airmen, then let’s work with them so that we have an opportunity at an early stage to actively shape that research for Air Force-relevant use cases. Similarly, with this co-development initiative, external researchers will also get an opportunity to work alongside world-class researchers at AFRL and, through those interactions, get insights into the needs of the operational community.” “The AFRL-Industry Co-Development Program strengthens the work between AFRL and industry to better target the strategic needs of the Air Force for dual-use technologies while more closely aligning with commercial market requirements,” said Dr. Melissa Grupen-Shemansky, SEMI CTO and Executive Director of NBMC. “This new collaboration will enable the growth of the ecosystem critical to bringing the latest smart medtech innovations to market while making the technology’s supply chain more sustainable and resilient.” SEMI NBMC connects military, industry and academia for research and development into the practical use of nano-biomaterials. The 2020 RFP targeted nano-bio materials for wearables, flexible and alternative power sources for wearables, and open concepts for wearables for diagnostics and ambulatory monitoring. These technologies address the critical need to monitor, evaluate and mitigate stress experienced by workers in high-pressure occupations – such as aviation, emergency, critical care and aeromedical evacuation – to enhance their warfighter performance and help ensure their well-being. For more information on SEMI NBMC, our R D funding projects, and how you can help shape the direction of our funding programs, visit our website or contact me at [email protected]. Learn more about our projects at the 2021 Global Smart MedTech Symposium July 28-29 and August 4-5, 2021. For more information about the NBMC-AFRL collaboration, see the 2020 Smart MedTech Virtual Workshop agenda. This article borrows from a U.S. Air Force press release on May 27, 2021. Rene Krantz is program manager for SEMI NBMC Smart MedTech.

For the first time in its 20-year history, the FLEX Conference dedicated an entire session to the important and timely twin topics of environmental sustainability and power consumption of electronic devices. The event planning committee recognized the urgent need to increase the awareness of how technology and electronics devices can help reduce greenhouse gas emissions (GGE) overall and meet aggressive targets to curb the impacts of climate change. Dr. Christine Ho, CEO of Imprint Energy, delivered the keynote for the session, focusing on the need for powering billions of sensors that will be deployed annually, and their role in reducing fossil fuel emissions through becoming aware of issues, monitoring our resources over time, and intervening early and often to combat waste in multiple sectors and industry. Quoting extensively from the organization Exponential Roadmap Initiative (ERI), Ho noted that “the digital sector has the potential to directly reduce fossil fuel emissions 15% by 2030 and indirectly support a further reduction of 35% by influencing consumer and business decisions and systems transformation.” The initiative’s playbook for reaching net zero carbon emissions by 2050 and limiting global warming to 1.5° Celsius outlines how the digital sector can help remove 13 of the 27 gigatons (GT) of CO2 needed to reach this goal. Ho stated that the rapidly emerging Internet of Things (IoT), devices, software systems, and data insights are the backbone of this digital transformation. The IoT's vast network of sensors can transform multiple sectors, such as the logistics industry, which on an annual basis moves and ships more than 10 billion tons of products worldwide by ships, airplanes, long haul trucks, and train - contributing 17% of GGE and more than 4 gigatons of CO2 annually. Always-connected IoT sensors used by the logistics industry can reduce waste and damage in the supply chain, which is especially problematic for temperature-sensitive and damage prone pharmaceutical and food products, mitigating the need for producing high volumes of buffer inventory to replace damaged goods Noting that the attendees of 20 Years of FLEX Conferences were a big part of the current advancements of low-cost printed, active, shipping tags, Ho said that Imprint Energy’s flexible and thin, Zinc based batteries are ideal for IoT devices, since they boast a significantly smaller carbon footprint than Lithium-Ion (Li-ion) batteries. Imprint Energy is working with systems designers and integrators to design the battery as an integral part of the device package and use low-power strategies to extend device lifetimes. Imprint recommends co-locating battery printing alongside the device integration to further minimize shipping and logistics. When manufactured separately, Imprint’s small footprint, low-operating temperature process line (less than 80°C) provides significant carbon footprint advantages over other technologies. Ho challenged the attendees, saying “we all need to participate in protecting our earth. We need to eliminate waste and contribute to reducing half of our current greenhouse gas emissions by 2030, and we can do that by deploying a global digital skin with more than 100 billion IoT devices in 2030 and up to 1 trillion by 2050. We can minimize the device carbon footprint and maximize its longevity by considering the power capability, as well as design for re-use and re-cycling of the critical materials.” Following Dr. Ho’s presentation, FLEX kicked off a spirited panel discussion with experts from PowerRox, ITN Energy Systems, Birla Carbon, and Auburn University and chaired by Bob Praino and Eric Forsythe, from Chasm Advanced Materials and the Army Research Labs, respectively. The speakers summarized their on-demand presentations and looked at what is being done today to recycle Lithium-Ion batteries, how IoT devices are currently being powered, and drew comparisons between the early days of the Internet and development of the IoT. The speakers generally agreed that the power requirements of wireless cellular and Blue-tooth devices were still too high and run times too short. FLEX 2021 was a virtual event in the 2021 SEMI Technology Series. It was organized by SEMI FlexTech, SEMI NBMC, and NextFlex. Major sponsors included E Ink and Novacentrix. The event covered technical developments in flexible, printed and hybrid electronics, featuring more than 100 presentations and networking opportunities. Technical proceedings are available until March 26 at http://flex.semi.org. Heidi Hoffman is senior director in Corporate Marketing at SEMI.