Exciting updates from the Notre Dame Nanofabrication Facility (NDNF)! Some of our talented undergraduate and graduate EE students are making their own microchips in the?Integrated Circuit Fabrication course. Over the semester, the students will transform a silicon wafer into an integrated circuit that plays a melody that’s all too familiar–The Notre Dame Victory March. Because here at Notre Dame, even in the smallest chips, we always “shake down the thunder from the sky!" #NDEE
University of Notre Dame, Department of Electrical Engineering
高等教育
Notre Dame,IN 1,123 位关注者
World-Class Faculty, Impact-Driven Research, State-of-the-Art Facilities
关于我们
Researching and teaching cutting edge technology, built and based on timeless technological fundamentals. The mission of the Electrical Engineering department is threefold: To provide to our students an undergraduate education of the highest quality. To educate graduate students in research, scholarship, and the intellectual life. To contribute to the vitality of the Catholic intellectual community which constitutes the core of the University.
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https://ee.nd.edu
University of Notre Dame, Department of Electrical Engineering的外部链接
- 所属行业
- 高等教育
- 规模
- 51-200 人
- 总部
- Notre Dame,IN
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- 教育机构
- 创立
- 1895
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主要
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275 Fitzpatrick Hall
US,IN,Notre Dame,46556
University of Notre Dame, Department of Electrical Engineering员工
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Notre Dame EE researchers are building global connections that will pave the way for better connectivity! In collaboration with teams from Nanyang Tech University and the Institute of Microelectronics in Singapore, as well as the University of Lille in France, these researchers have created a new terahertz beamformer chip (pictured below) that will make the future of 6G and beyond into reality!? The team, led by Prof. Ranjan Singh at the University of Notre Dame Electrical Engineering Department, has created a cutting-edge new technology that can significantly improve the efficiency and reliability of data transmission, especially in emerging industries such as virtual reality, autonomous vehicles, and smart cities. This tiny chip, with the ability to support carefully directed, high-speed data streams with 360-degree coverage, could play a crucial role in meeting growing worldwide demands for high-speed, reliable wireless connections. Find out more here: https://lnkd.in/eBirv6eb.
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In honor of Postdoctoral Appreciation Week, we would like to highlight?Karla Adriana Gonzalez Serrano, one of our postdoctoral researchers!? Originally from Monterrey, Mexico, Karla began her time at Notre Dame as a visiting student in the Department of Chemical and Biomolecular Engineering. At Notre Dame, she found outstanding faculty, excellent research facilities, and a vibrant graduate student community, so she joined the Electrical?Engineering PhD program to conduct research in nanoelectronics. Currently, Karla works in Prof. Thomas O'Sullivan's Biomedical Photonics lab in the Department of?Electrical?Engineering. Her research focuses on novel technologies using light to quantify tissue components?in vivo, especially to detect tumors and monitor treatment. She also works on developing new optical models of tissue. She collaborates with NearWave, a startup that spun out of the O’Sullivan lab, to translate a new handheld, portable, and accessible tissue imaging device from the lab into the clinic in both high- and low-resource settings in the US and abroad. #postdoc?#postdocappreciationweek?#ndee
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Congratulations to Dr. Hall and all the Electrical Engineering students and collaborators for their contributions to the laser diode research!
A research team at the University of Notre Dame recently secured a $550,000 grant from the U.S. National Science Foundation (NSF) to develop promising new laser technology developed at the University. The two-year Partnerships for Innovation (PFI) grant will help fund the commercialization of a novel laser diode invented by Douglas Hall, an associate professor of University of Notre Dame, Department of Electrical Engineering at Notre Dame, and two former electrical engineering graduate students, Di Liang and Jinyang Li. As part of the award requirements, the Notre Dame team, including Jideofor Odoeze, a doctoral candidate in the College of Engineering, and Benjamin Sheyko, technology validation manager for the IDEA Center, recently participated in a seven-week commercialization training course called I-Corps. This program allowed them to explore the business potential of the laser diode and prepare it for market readiness. Read the article here: https://lnkd.in/g8iPjN_r
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?? Exciting Opportunity at Notre Dame's Wireless Institute! ?? The Notre Dame Wireless Institute seeks a talented, experienced Senior Hardware Engineer to join our innovative team. This position involves designing, developing, and measuring mixed-signal analog, radio-frequency, and digital wireless communication circuits operating up to the millimeter-wave bands (60 GHz). We are looking for candidates with experience in board-level circuits and design of GHz radio-frequency electronics, as well as board-level design of digital circuits, including small controllers and processors operating at sub-100 MHz frequencies. If you are a problem-solver passionate about tackling complex challenges and possess the required expertise, we would love to hear from you. This is an incredible opportunity to join a leading institution and make a significant impact in the field of hardware engineering. For full position description: https://lnkd.in/ejDeWNhN
Senior Hardware Engineer
jobs.nd.edu
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EE Professor Thomas O'Sullivan's research continues to play a transformative role in improving health outcomes for women.
With a new grant, researchers at the University of Notre Dame and the Tecnológico de Monterrey School of Medicine and Health Sciences aim to improve breast cancer diagnostics for thousands of women in resource-limited communities. Thomas O'Sullivan, associate professor at University of Notre Dame, Department of Electrical Engineering, will collaborate to gather clinical and cultural feedback while using NearWave — a battery-powered imaging device that his lab developed to characterize breast lesions. Dr. Daly Avenda?o, MD, PhD is also bringing expertise to this pilot study, which looks to optimize the breast diagnostic imaging procedure for low and middle-income settings in Mexico while evaluating the accuracy of breast malignancy diagnosis in patients scheduled for breast biopsies. “By addressing global health concerns through reciprocal and translational research, and by strengthening our partnerships in Mexico, we are working together as a force for good to improve health standards for women facing breast cancer here in Indiana and around the world,” said Nydia Morales-Soto, PhD, assistant director of the Eck Institute for Global Health at the University of Notre Dame and co-Principal Investigator on the project. Learn more about applications for the award, which was made possible by the Indiana CTSI and the IU Center for Global Health Equity’s Reciprocal Innovation Grants Program. https://lnkd.in/eEW4n-8d Photo by Barbara Johnston/University of Notre Dame
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As we conclude the National Breastfeeding Month of August, we want to highlight a recent research study by NDEE Prof. Thomas O'Sullivan and his collaborators at the University of Twente (Netherlands) where they demonstrated the use of light-based techniques to study the breast physiology of breastfeeding mothers. Read More:?https://lnkd.in/gd8NnRUE Image source: U.S. Breastfeeding Committee
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