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The Department of Bioengineering at the University of Pennsylvania and Dr. Jenny Jiang are pleased to announce the Doctoral Dissertation Defense of Michael Malone. Title: Next-generation Analyses of T Cell Receptor Repertoires Date: May 4, 2023 Time: 10am - 12pm Location: Raisler Lounge, 225 Towne Building The public is welcome to attend. Zoom info: Join […] |
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The Department of Bioengineering at the University of Pennsylvania and Dr. Nathaniel Dyment are pleased to announce the Doctoral Dissertation Defense of Catherine Bautista. Title: Resident Macrophages in Tendon Growth and Development Date: May 8, 2023 Time: 10:00am Location: JMB Class of '62 Auditorium Zoom: https://upenn.zoom.us/j/94981950758?pwd=TEdHN0FQU2MvMk52KzhaTTM0MWJvZz09 The public is welcome to attend. |
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Autonomous vehicles rely on environmental perception to inform the system on how to act. Vision sensors, such as conventional cameras, have been at the forefront of the perception of most mobile platforms. However, conventional cameras have limitations such as high data rates, low dynamic range, and high latency. Dynamic vision sensors, such as event cameras, […]
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The Department of Bioengineering at the University of Pennsylvania and Dr. Dan Huh are pleased to announce the Doctoral Dissertation Defense of Sunghee Estelle Park. Title: Engineering stem cells and organoids on a chip for the study of human health and disease Date: Wednesday, May 10, 2023 Time: 1:00 pm Location: Towne 225 Raisler Lounge […]
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Advancements in wireless and sensor technology have resulted in increasing demand for piezoelectric MEMS devices in wireless handsets and base stations, automobile technology, health monitoring sensors, and environmental sensors. Due to its high-quality factor (Q), Young’s modulus, sound velocity, and low mechanical and dielectric losses, AlN is an advantageous resonator material with applications in radio […] |
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The future of the Internet of Things (IoT) envisions very large networks of spatially distributed devices cooperating to solve common tasks in both industrial and urban environments. That vision fundamentally relies on the use of wireless communication across such networks to enable flexibility, mobility, and dynamic configurations. To help realize that vision, we discuss three […] |
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Solid state defects have emerged as a leading candidate for platforms in quantum computing, communication, and sensing. The electronic spins localized around these defects have many advantages such as room temperature coherence, spin dependent optical transitions which enable visible-wavelength initialization and readout, and resonant frequencies compatible with widely available off-the-shelf microwave hardware. Furthermore, the nuclear […] |
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Current computing systems are mainly constructed on the von Neumann architecture, where data needs to be transferred to a processing unit from memory components. The latency associated with accessing data from the memory units is a key performance bottleneck for a range of data-intensive applications in the convergence of big data and AI. Several solutions […] |
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With the ever-increasing production of portable electronics, internet of things devices, electric vehicles, unmanned aerial vehicles, and other autonomous robotic systems comes an increasing demand for reliable, long-lasting, portable power sources. Portable electronic systems are often limited by the energy density of the batteries that power them, and these batteries typically take up a large […] |
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In this thesis, ab initio methods including density functional theory are used in concert with molecular dynamics, enhanced sampling techniques, and microkinetic modeling to study oxide materials as applied to electrochemical ammonia synthesis, carbon mineralization, and the oxygen evolution reaction. Special attention is directed towards discussion of model selection and its relationship to the experimental system. […] |
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