New Interdisciplinary Research Institute to Launch This Summer
Nov 17, 2023 —
The Institute for Electronics and Nanotechnology (IEN) and the Institute for Materials (IMat) have announced they will combine to form a new Interdisciplinary Research Institute (IRI) set to begin operations on July 1, 2024.
The new IRI, which has yet to be named, will explore the vast scientific, technological, societal, and economic impacts of innovative materials and devices, as well as foster their incorporation into systems that improve the human condition in areas such as information and communication technologies, the built environment, and human well-being and performance.
“The new IRI will not only combine the strengths of IEN and IMat, but will also allow us to further expand faculty representation from across the Institute,” said Julia Kubanek, vice president of Interdisciplinary Research at Georgia Tech. “As we look at the future of research in these areas, expanding inclusivity of researchers from the liberal arts, design, business, and basic sciences will allow us to better meet the education, workforce development, and innovation needs of Georgia, the U.S., and the world.”
The new IRI will strengthen Georgia Tech’s role in national focus areas such as the National Nanotechnology Initiative, the Materials Genome Initiative, and the CHIPS and Science Act, as well as identify and shape future priorities.
Core competencies of the new IRI will include:
- Fundamental science to comprehend and control matter from the nanoscale to the mesoscale.
- The synthesis, processing, and characterization of materials to achieve desired properties.
- The design and fabrication of novel devices and components with enhanced capabilities.
- The integration of materials, devices, and components into larger systems.
- Computing, modeling, simulation, and big data to advance progress at all length scales.
- Integration into all stages of research, from conceptualization to impact assessment, of economic, business, and social factors to ensure sustainable and equitable benefits.
“IEN and IMat have worked closely together for years, and there is overlap in the research areas we cover,” said Eric Vogel, IMat’s executive director. “This is an opportunity for us to build on IEN and IMat’s individual successes and our strong record of collaboration to create something even more exceptional.”
The new IRI will strengthen the state-of-the-art core cleanroom and characterization facilities, providing researchers with the tools and resources necessary for cutting-edge interdisciplinary research. These facilities will continue to serve both Georgia Tech and, through its leadership within the NSF National Nanotechnology Coordinated Infrastructure, the nation. Recognizing the importance of nurturing talent, it will champion education and outreach programs to inspire the next generation and equip the workforce with the skills necessary to collaborate and communicate across multiple disciplines.
“This is an exciting time to look to the future,” said Michael Filler, interim executive director of IEN. “We highly value the dedication and hard work of our staff and research faculty, who have been crucial to the success of IEN and IMat and will be the backbone of this new organization. We look forward to creating something exceptional in the coming months.”
Laurie Haigh
laurie.haigh@research.gatech.edu
Georgia Tech Authors Celebration 2024
Georgia Tech faculty and staff are invited to join the Office of the Executive Vice President for Research and the Library for the annual Georgia Tech Authors Celebration.
This event celebrates Georgia Tech book publications, showcasing the range and depth of scholarship on our campus. The 2024 event honors authors and editors who have published books between January 2022 and December 2023.
Georgia Tech Hosts Nanowire Week 2023
Nov 03, 2023 —
This year, Nanowire Week 2023 took place at Georgia Tech’s Global Learning Center from October 9-13, 2023. The event, which kicked off on National Nanotechnology Day, brought together attendees and speakers for four and a half days of talks, poster sessions, and panel discussions covering all aspects of nanowire research and development – from fabrication and fundamental properties to applications.
“Hosting Nanowire Week 2023 at Georgia Tech’s Global Learning Center has been an extraordinary experience,” said Michael Filler, interim executive director for the Institute of Electronics and Nanotechnology. “This conference has highlighted the interdisciplinary nature of nanowire research, bringing together scientists and engineers from around the globe. Their shared insights and discoveries are not just academic achievements; they are the building blocks for technological innovations that could transform industries and improve everyday life." Filler served as conference chair and worked with an international steering committee to plan the event.
With more than 115 speakers and poster presenters representing more than 20 countries, the agenda reflected the diverse and evolving landscape of nanowire research. Topics included nanowire growth and manufacturing, electron transport and doping in nanowires, quantum behavior and devices, energy conversion and storage, and more.
Nanowires are 1D nanostructures with a wide range of potential uses. The ability of bottom-up growth methods to ‘program’ nanowire structure and composition with nanoscale precision opens the door to novel materials properties and functionality.
Nanowire Week takes place every 18 months and brings together leading experts in the world of nanowires. Past locations include Lund, Sweden; Hamilton, Canada; Pisa, Italy; and Chamonix, France.
GEDC Distinguished Lecture Series | Scalable Interconnects for AI/ML Workloads
Abstract: AI Factories of the future will push the capability limits of signal integrity, mechanical and thermal design and stress interconnects in unprecedented ways. This talk will outline the hardware demand for future AI/ML workloads and outline system requirements for packaging to enable dense electrical I/O, cooling solutions for heat extraction of high-power ASICs.
Laser Micro-machining Short Course
During this short course, attendees will:
- Receive an introduction to Laser Micro-machining Concepts
- Learn different types of laser operation skills
- Participate in hands-on sessions led by IEN laser experts
- Learn advanced Metrology skills to evaluate micro-machining quality
There is no cost to attend this course, but registration is required.
GEDC Distinguished Lecture | Nonlinear and Topological Microwave Structures
Abstract: We will discuss a range of recent work centered around the theme of nonlinear and topological structures in the microwave regime. First, we have developed a suite of software tools for analyzing and identifying topological structures which allow us to easily calculate topological invariants, including our recent addition of symmetry indicators. This allows us to search for new patterns that have interesting topological properties.
NNCI Computation Webinar: Particle Based Simulation of Wide Bandgap Devices
Abstract: Wide bandgap materials such as GaN and SiC as well as ultra-wide bandgap like diamond offer the potential for greatly improved power electronic device performance due to their predicted higher breakdown fields limited by avalanche breakdown, as well as their favorable transport characteristics such as high mobility and drift velocity, which reduce on-resistance and allow for high frequency operation in power conversion applications.
Emory, Georgia Tech receives $7 million NIH grant to advance health technologies
Oct 24, 2023 —
The National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health has awarded $7.8 million over the next five years to the Atlanta Center for Microsystems Engineered Point-of-Care Technologies (ACME POCT) to support inventors across the country in developing, translating and testing microsystems-based point-of-care technologies to help improve patient care.
Point-of-care technologies are medical diagnostic tests performed outside the laboratory in close proximity to where a patient is receiving care. This allows health care providers to make clinical decisions more rapidly, conveniently and efficiently.
AMCE POCT, which is one of six sites in the U.S. selected by NIH as part of the NIH Point-of-Care Technologies Research Network, was originally established in 2018 to foster the development and commercialization of microsystems (microchip-enabled, biosensor-based, microfluidic) diagnostic tests that can be used in places such as the home, community or doctor’s office. The center played a pivotal role during the onset of the COVID-19 pandemic as the national test verification center to rapidly evaluate COVID-19 tests and help make them widely available.
SCSP NatSecTech University Workshop at Georgia Tech
This workshop has been canceled.
$3M NSF Investment Will Create New Semiconductor, 3D Printing Materials
Oct 20, 2023 — Atlanta, GA
Researchers at Georgia Tech will work to develop new controllable materials for 3D printing, electronics made from plastics, and semiconductors that convert infrared light into electrical signals as part of the National Science Foundation’s (NSF) efforts to create advanced materials.
Altogether, the agency is investing $3 million in the three projects led by faculty members in the George W. Woodruff School of Mechanical Engineering (ME) and the School of Materials Science and Engineering (MSE). Georgia Tech is a contributing partner on a fourth project led by Notre Dame researchers to explore materials that can be switched from an insulator to a metal with an external trigger.
The new awards are part of NSF’s Designing Materials to Revolutionize and Engineer our Future (DMREF) program, which is intended to discover and create advanced materials twice as fast and at a fraction of the cost of traditional research methods.
Read more about the researchers' plans on the College of Engineering website.
Joshua Stewart
College of Engineering