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Imaging, Sensing, and Wearable Devices Using Nanophotonic Platforms Abstract – Personalized health emphasizes prevention and early diagnosis over solely tailoring therapies. My lab’s nanophotonic approaches center on developing precision tools to detect biomarkers, imaging molecular interaction functions, and designing sustainable wearable devices. In this talk, I will highlight two research areas: ultrafast optical force nanoscopy and wearable metasurface sensors. I will introduce Decoupled Optical Force Nanoscopy (Dofn), a technique that addresses current limits in nanoparticle thermal profiling by enabling nanosecond temporal and nanometer spatial resolutions. Dofn also offers a non-invasive way to identify cell membrane molecules without purification. Next, I will discuss wearable metasurface-enabled sensors for wireless charging of implanted devices. Tested on live animals, this technology demonstrates a tenfold power enhancement, enabling long-term tracking of brain activity. These innovations mark significant strides in wearable sensing for personalized health. Super-resolution PAUL Brain Imaging for Guiding Blood-brain Barrier Modulation Abstract – The blood-brain barrier (BBB) is a formidable obstacle in delivering therapeutic agents to the brain, blocking nearly all potential treatments for neurological diseases. Focused ultrasound (FUS) offers an exciting solution by temporarily opening the BBB to allow targeted drug delivery. Yet, understanding the safety and effectiveness of this approach remains a major challenge. Traditional brain imaging modalities fall short—they either lack the resolution or the sensitivity needed to monitor subtle changes in BBB permeability and the resulting hemodynamic responses. In this talk, I’ll introduce a groundbreaking multimodality imaging approach: PAUL imaging. By integrating the molecular sensitivity of photoacoustic imaging with the microvascular detail of super-resolution ultrasound localization—and further enhancing it with deep learning—PAUL imaging delivers fast, high-resolution insights into BBB permeability and cerebral hemodynamics. This powerful platform provides a transformative tool for advancing brain-drug delivery and uncovering the biological impacts of BBB modulation, opening new avenues in the treatment of neurological disorders. Co-sponsored by: Advanced Science Research Center - the Graduate Center - City University of New York Speaker(s): Yang Zhao, Yun-Sheng Chen Room: Auditorium, Bldg: Advanced Science Research Center CUNY, 85 St. Nicholas Terrace, New York, New York, United States, NY 10031, Virtual: https://events.vtools.ieee.org/m/447327

IEEE Boston SSCS Distinguished Lecture Dr. Rabia Tugce Yazicigil Title: The Circuit Frontier: Innovating and Expanding ASIC Solutions for Enhanced Biosensing and Seamless Wireless Communication Abstract: This talk will introduce Cyber-Secure Biological Systems, leveraging living sensors constructed from engineered biological entities seamlessly integrated with solid-state circuits. This unique synergy harnesses the advantages of biology while incorporating the reliability and communication infrastructure of electronics, offering a unique solution to societal challenges in healthcare and environmental monitoring. In this talk, examples of Cyber-Secure Biological Systems, such as miniaturized ingestible bioelectronic capsules for gastrointestinal tract monitoring and hybrid microfluidic-bioelectronic systems for environmental monitoring, will be presented. Additionally, I will introduce a universal noise-centric data decoding approach using GRAND that facilitates ultra-low-energy wireless communications, a critical requirement for the success of these biological systems and numerous other applications. In this talk, I will delve into the intricacies of interdisciplinary approach for system design, spotlighting the potential of energy-efficient integrated circuits in the domains of biosensing and wireless communications. These collaborative research projects involve MIT BE/MechE, BU ECE/BME, and MIT RLE-Northeastern University. Speaker(s): Dr. Rabia Yazicigil, Agenda: 3:00 PM Welcome 3:15 PM Introduction and IEEE Boston SSCS and IEEE SSCS Distinguished Lecture Program 3:30 PM IEEE Boston SSCS Distinguished Lecture Dr. Rabia Tugce Yazicigil 4:30 PM Light Reception / Apero 5:00 PM Event Concludes 125 Summer Street, Boston, Massachusetts, United States, 02111

[] Meet the Computer Society Volunteers. See a presentation about recent Events. Examples: Live Workshops, Careers in Technology, STEM, Pre-U STEM, Jersey Shore STEM Ecosystem, Lunch with Leaders and Luminaries, Meet and Greet, History Events Celebrations, Featured Speakers, Humanitarian Projects, Standards, etc. Discuss the recent activities, upcoming events, and plan for the future. See how you can participate. Agenda: Introductions Volunteers Review of Recent Events Upcoming Events Invitation to Volunteers Virtual: https://events.vtools.ieee.org/m/449917