The Best Center’s 2024 National Institute on January 4 and 5 featured 28 speakers—many of them Lawrence Berkeley National Laboratory researchers—talking about new energy technologies and sharing climate data in the context of educating technicians to run energy efficient buildings.

The keynote speakers were Abrahm Lustgarten, author of On the Move: The Overheating Earth and the Uprooting of America, and Mary Ann Piette, a senior scientist and associate lab director in the Energy Technologies Area of Lawrence Berkeley National Laboratory (LBNL)—a U.S. Department of Energy-funded research and development center.

BEST, which stands for Building Efficiency for a Sustainable Tomorrow, is an Advanced Technological Education center at the University of California, Berkeley, that focuses on preparing educators to teach the advanced technical and cognitive skills that people need for careers in building automation systems, energy management, and heating, ventilation, and air conditioning (HVAC).

Recordings of the 12 hours of live webinar presentations with transcripts and PDFs of the speakers’ slides may be accessed for the next year at no cost from the institute’s event agenda.

BEST leaders also used the virtual institute as a forum to report on the High-Performance Building Operations Professional (HPBOP) certification they developed to meet international industry standards and accreditation guidelines. Center leaders hope that by hitting these benchmarks, the certification will become the national standard for the knowledge, skills, and attitudes for building technicians to operate and maintain high-performance commercial buildings for safety, health, and sustainability.

The center is currently seeking educators and technical professionals to participate in pilot tests of the certification exam to help the center finalize the bank of test questions it developed with industry partners and testing experts. For more information on the exam see https://hpbop.org.

LinkedIn, with over 700 million professionals worldwide, presents a unique opportunity for connecting with individuals across various industries and organizations. According to a recent survey by ATE Central, 62% of respondents from the ATE community prefer LinkedIn as a social media platform for outreach, and 56% consider it the most effective platform for sharing out resources and deliverables. To shed light on effective LinkedIn strategies, ATE Central interviewed Samantha Hooker, Senior Marketing Specialist for Evalu-ATE  and the Evaluation Center, at Western Michigan University. 

Here are some key takeaways:

1. Strategic Shift to LinkedIn: 

Evalu-ATE made a deliberate move from Twitter to LinkedIn, driven by a desire for a more professional and aligned platform. Samantha emphasized LinkedIn's potential for reaching a professional audience in the field of evaluation. This shift reflects a strategic move towards a platform that better aligns with project goals and values. Samantha highlights this,

"LinkedIn can actually be a really, really great tool for building community... It's easy to connect with people and it's a really easy platform to use for sharing out information in a professional manner." 

How Advanced Technological Education (ATE) initiatives positively influence students’ entrée into advanced technology careers was evident at the student poster session at the 2023 ATE Principal Investigators’ Conference on October 25 in Washington, D.C. The annual conference is hosted by the American Association of Community Colleges with support from its ATE grant from the National Science Foundation (NSF).

In their own words on posters and in energetic response to questions posed by conference attendees who viewed the posters during the lively 90-minute session after the opening plenary, the students shared what they had learned as a result of the ATE-grant funded initiatives.

The posters created by 48 students and alumni documented a wide array of learning experiences, including classroom instruction, labs, internships, apprenticeships, undergraduate research projects, and competitions. Here are two of the outstanding projects featured at the poster session.

Team Develops Prototype of Self-Energizing Buoy for Sea Farms 

Skylre Hine, a mechanical engineering major at Connecticut State Community College Gateway, was part of a four-person, all-female team that created a buoy that harnesses kinetic energy from water movement and solar energy to power a battery for monitoring equipment used by sea farms.

In STEM education, mastering basic mathematics is both essential and challenging for many students. As a foundation for numerous scientific and technological disciplines, math is crucial, yet its abstract nature can often make even fundamental concepts seem elusive.

This month’s From the Archive blog post highlights creative methodologies that render mathematics more tangible by linking theoretical concepts to real-world contexts. Featured below are three ATE projects that exemplify this approach, each designed to meld mathematical concepts with practical applications in various STEM fields such as engineering, advanced manufacturing, and biotechnology.

Several years ago Marion Technical College in Ohio had an impediment in its pursuit of big federal grants that is unfortunately an all-too-common problem for rural two-year colleges. The college wanted to hire a full-time grant writer, but none of the applicants had experience with large, competitive grants. President Ryan McCall said he thought if he hired an inexperienced person, the individual would learn just enough on-the-job to springboard to a larger organization in a few years.

Around that time Ohio compelled the state’s rural two-year colleges to work collaboratively on a program with the larger, urban community colleges in their respective regions. That experience was so positive it prompted McCall to ask David Harrison, president of Columbus State Community College, if Marion Tech could contract with Columbus State’s grants office for help writing a U.S. Department of Education Title III grant. Marion Tech had been declined for funding three times despite assistance from an expensive consultant.

The fee-for services arrangement that began in 2018 now includes grants management due to Marion Tech’s $5 million in awards, including a Title III grant, two Advanced Technological Education grants, and a federal TRIO grant.

“I have access to the whole team for less than half of what it would cost me to hire a grant writer,” McCall said.

Several significant research initiatives and strategies have been launched to address critical challenges in various fields. These endeavors have sought to advance technology, bolster the nation's cybersecurity workforce, support diverse student populations in community colleges, and expand apprentice programs. In the following summaries, we explore these initiatives in more detail, highlighting their objectives and contributions to their respective domains.

1. Advancing Semiconductor Technologies and Workforce Development:
The U.S. National Science Foundation (NSF) has committed $45.6 million to fuel 24 research and education initiatives in the realm of semiconductor technologies and workforce development. This investment, made possible by the "CHIPS and Science Act of 2022," is part of the NSF Future of Semiconductors (FuSe) program, a collaborative effort involving industry giants such as Ericsson, IBM, Intel, and Samsung. The primary goals of this program encompass nurturing a skilled semiconductor workforce and catalyzing innovations in semiconductor technologies and systems. It's a critical endeavor aimed at ensuring a secure and reliable supply of semiconductor technologies in the United States.

Ryan Bradshaw feels fortunate that Mentor-Connect’s expanded mission provides mentoring to community college educators who are new to the Advanced Technological Education (ATE) program, even if their colleges have had recent ATE grants.

Johnston Community College, where Bradshaw is chair of Business Education & Technology Department,  has had two ATE grants since 2018. But Bradshaw was not part of those projects that were developed with Mentor-Connect mentoring, nor had he worked on grants at other community colleges previously.

In September—months before he would learn reviewers’ ratings of JCC’s cybersecurity project proposal, Bradshaw called it a success because of all that he had learned. The four-person team he led was mentored by Pam Silvers, co-principal investigator of Mentor-Connect. Bradshaw praised Silvers and also described how Mentor-Connect’s in-person workshops affirmed and inspired his work.

“For a faculty member to have the opportunity to go to a national conference, to be a part of something that will elevate their program, it creates an excitement and anticipation for the good works they do. And then when you have students come in and see the interesting, fun, and exciting things that we’re bringing to their program, it actually draws students to the programs. It gives students a reason to stick around because we’re doing interesting, exciting things. I believe once you have enthusiasm in our programming it’s contagious. It spreads from faculty to students and throughout the community. And so I’m really positive about the things we’re doing with the program and with this proposal,” he said. 

To learn more about the various types of mentoring that Mentor-Connect offers, see the NSF ATE Program Opportunities & Mentor-Connect Orientation Webinar at https://www.youtube.com/watch?v=1vbpxN2PyAo 

Applications for Mentor-Connect’s 2024 cohort are due Friday, November 10.

The 2023 ATE Principal Investigators’ Conference, commemorating 30 years of advancing technological education, is coming up on October 25-27 at the Omni Shoreham Hotel in Washington, D.C!

Over 850 NSF ATE grantees and project partners from various educational sectors will convene to address critical issues in advanced technological education, spanning disciplines like information technology, engineering technology, and biotechnology. This year, the conference will introduce an extended agenda, including pre-conference workshops and affinity group meetings, along with opportunities for Congressional advocacy. 

As he develops three quantum technology courses—that he thinks will be the first formal curriculum for quantum workforce technicians—Mo Hasanovic is recruiting students and encouraging community colleges to “jump on the train much earlier” than they have previously with emerging technologies and add quantum technology programs as soon as possible.

Hasanovic is associate professor and chair of the Electrical Engineering Technology Department at Indian River State College (Florida) and principal investigator of EdQuantum, an ATE project.

The general public may not be aware of it, but advances in quantum computing, quantum networking, and quantum sensing have the potential for enormous, disruptive effects that are making attainment of quantum supremacy a strategic priority for the U.S. government.

“It’s almost like a patriotic duty to move the technology forward as an entire nation so we can continue to be a global leader in democracy in these technologies,” Hasanovic said.

The first quantum revolution began in the twentieth century and led to the development of lasers, LEDs, MRIs, solar cells, and Lidar.  Quantum Revolution 2.0, as Hasanovic refers to the commercialization of quantum research-enabled products, is expected in the next five to 10 years. There are predictions that the immense processing power of new quantum computers could put all passwords at risk while advances in quantum networking could make internet communications 100% secure.

Hasanovic said there are quantum sensing devices under development that will be so sensitive they can measure gravitational force underground, which will remotely differentiate between different minerals.

“The quantum is important,” he says emphatically.

The National Science Foundation (NSF) annually funds approximately 12,000 new awards, with an average funding duration of three years. Each year some of those new awards are supported by the ATE Program, which focuses on improving and expanding educational programs for skilled workers in high-tech STEM fields. ATE grantees concentrate on a range of fields, including advanced manufacturing, agriculture and environment, bio and chemical, information and security, and micro and nanotechnologies and are based primarily at two-year institutions across the nation. This year we celebrate our new grantees by highlighting four newly funded projects from the 2023 funding cycle. 

Integrating Data Science and Hands-on Experience into the Community College Biotechnology Classroom with Applications to Antibody Engineering

This project aims to integrate antibody engineering into Kapi'olani Community College's biotechnology curriculum, focusing on practical skills for students to enter the biotechnology workforce. With a particular emphasis on data science and artificial intelligence, the project seeks to enhance the undergraduate experience and showcase the importance of these disciplines in biotechnology and biomanufacturing. By introducing antibody design, production, and characterization using the Design-Build-Test approach, the project will expand the capabilities of the Monoclonal Antibody Service Facility and Training Center (MASFTC). The project's goals include creating educational modules for hands-on learning, developing data science components with a web-based interface, and establishing a database to document student and faculty activities within the KCC-Antibody Center of Excellence (KCC-ACE), ultimately contributing to workforce development, economic diversification, and increased diversity in STEM fields in Hawaii and beyond.