This presentation focuses on structure-property/relationships in advanced materials, emphasizing multifunctional systems that exhibit multiple functionalities. Such systems are then used as building blocks for the fabrication of various emerging technologies. In particular, nanostructured materials synthesized via the bottom-up approach present an opportunity for future generation low-cost manufacturing of devices. We focus in particular on recent developments in solar technologies that aim to address the energy challenge, including third-generation photovoltaics, solar hydrogen production, luminescent solar concentrators and other optoelectronic devices. Professor Federico Rosei, Énergie Matériaux Télécommunications Research Centre (EMT), Institut National de la Recherche Scientifique (INRS), https://inrs.ca/en/research/professors/federico-rosei/, Montreal, Canada, on behalf of IEEE Photonics Society Registration is Required and the Link - https://events.vtools.ieee.org/m/263308
Professor Federico Rosei Énergie Matériaux Télécommunications Research Centre (EMT), Institut National de la Recherche Scientifique (INRS), https://inrs.ca/en/research/professors/federico-rosei/, Montreal, Canada, on behalf of IEEE Photonics Society This presentation focuses on structure property/relationships in advanced materials, emphasizing multifunctional systems that exhibit multiple functionalities. Such systems are then used as building blocks for the fabrication of various emerging technologies. In particular, nanostructured materials synthesized via the bottom-up approach present an opportunity for future generation low-cost manufacturing of devices. We focus in particular on recent developments in solar technologies that aim to address the energy challenge, including third-generation photovoltaics, solar hydrogen production, luminescent solar concentrators and other optoelectronic devices. Registration is Required: https://events.vtools.ieee.org/m/263308
IEEE Power Energy Society (PES) Technical Seminar Speaker: A/Prof. Lasantha Meegahapola, RMIT University) Power system frequency and voltage control are of paramount importance to maintain power grid stability and security. With the large-scale integration of power electronic converter interfaced renewable power generation into power grids (e.g. wind generation and solar-PV), the conventional strategies to control and maintain system frequency and voltage are becoming inadequate. In some cases, the inadequacy of frequency and voltage control resources in the power grid has led to power system stability problems. Therefore, new strategies should be deployed in power grids to maintain frequency and voltage within acceptable levels stipulated in grid codes/ rules, such as by employing advanced control schemes in power electronic converter interfaced renewable generators (e.g. fast frequency response). This presentation will cover both the depth and breadth of aspects of power system frequency and voltage control in renewable rich power grids, including electricity market aspects related to frequency and voltage control. Registration: https://www.eventbrite.com.au/e/voltage-and-frequency-control-in-renewable-rich-power-networks-tickets-153955116899 Webinar Zoom Link: https://deakin.zoom.us/j/87802057856?pwd=ZmRSVHVmdjNJQ3o5Vk5HTVAvTGloQT09 (Meeting ID: 878 0205 7856, Password: 05700621 ) Contact: IEEE PES Victorian chapter– [email protected]
This is a collaboration with the Women in Science and Engineering (WISE) Club at the University of Melbourne and is only open to students. "Join IEEE Women in Engineering and WISE (Women in Science and Engineering) at the University of Melbourne to get some Tips for the Upcoming Exams and finish off the semester with a fun Trivia Night. Where: Zoom Link- https://unimelb.zoom.us/j/86791240703?pwd=WWV1emIvajJ3SG5ubGJJNmdyK1d4QT09 Password: 894361 Open to all students. We can't wait to see you there!" Download Flyer: Exam Tips & Trivia.pdf
IEEE VTS Chapter talk by VTS Distinguish Lecturer Dr Chau Yuen, Singapore University of Technology and Design. This talk will present some recent results on the reconfigurable intelligent surfaces, including a practical phase shift model and beamforming optimization, a hybrid beamforming for RIS-empowered multi-hop terahertz communications, a channel estimation for RIS-enabled multi-user MISO wireless channel, and RIS-assisted MAC for wireless networks. The registration link is https://events.vtools.ieee.org/m/268269 For further information contact Enn Vinnal ([email protected])
Chair Professor Steve S. Chung, National Yang Ming Chiao Tung University (NYCU), Taiwan, https://eenctu.nctu.edu.tw/en/teacher/p1.php?num=129&page=1, Taipei, Taiwan, on behalf of Victorian IEEE Electron Devices Society (Aus) Encryption, security, functionality and identification setting become indispensable in the IoT and the upcoming 5G era for high-end consumer electronics. As a result, various SoC applications bring up increasing demands of logic memory IP in advanced technology nodes. Comparing to the stand-alone memory chips (NAND, NOR flash), the development of the specific function of memory, such as One-Time-Programming or PUF(Physical Unclonable Function), becomes more popular in terms of its simplicity based on the pure logic process. In this talk, a non-volatile OTP memory cell, using a specific dielectric breakdown, named dFuse, discovered as a third breakdown different from conventional soft-breakdown and hard-breakdown has been able to achieve high density and excellent data storage, for reliable and high-security applications. Based on the device physics, the mechanism of the dielectric breakdown will first be introduced and the origin of the breakdown will be described. Its applications which led to the further development of OTP cell design and macro chips will also be demonstrated. Further implementation as a PUF will then be demonstrated. In particular, the opportunities and challenges on the current 28nm HKMG generations and beyond will be addressed. Registration is Required and the Link - https://events.vtools.ieee.org/m/269390