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X-ORIGINAL-URL:https://www.fst.um.edu.mo
X-WR-CALDESC:Events for Faculty of Science and Technology | University of Macau
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BEGIN:VTIMEZONE
TZID:Asia/Macau
BEGIN:STANDARD
TZOFFSETFROM:+0800
TZOFFSETTO:+0800
TZNAME:CST
DTSTART:20190101T000000
END:STANDARD
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BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20231013T160000
DTEND;TZID=Asia/Macau:20231013T170000
DTSTAMP:20260617T005201
CREATED:20231012T024444Z
LAST-MODIFIED:20231012T024444Z
UID:31021-1697212800-1697216400@www.fst.um.edu.mo
SUMMARY:Inorganic 2D Material Liquid Crystalss
DESCRIPTION:Instructors/Speakers\nDr. Bilu LIU\n \nProfessor\, \nTsinghua University\, Shenzhen\, China
URL:https://www.fst.um.edu.mo/event/cinorganic-2d-material-liquid-crystalss/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/10/seminar-Oct2023-2-Liu.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20231011T143000
DTEND;TZID=Asia/Macau:20231011T153000
DTSTAMP:20260617T005201
CREATED:20231005T092943Z
LAST-MODIFIED:20231005T092943Z
UID:30794-1697034600-1697038200@www.fst.um.edu.mo
SUMMARY:Computational Design of 2D Materials for Efficient Electrocatalyst
DESCRIPTION:Instructors/Speakers\nDr. Xiongyi LIANG\n \nResearch Associate\, \nCity University of Hong Kong\, HK
URL:https://www.fst.um.edu.mo/event/computational-design-of-2d-materials-for-efficient-electrocatalyst/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/10/seminar-Oct2023-Liang.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230922T103000
DTEND;TZID=Asia/Macau:20230922T113000
DTSTAMP:20260617T005201
CREATED:20230921T022131Z
LAST-MODIFIED:20230921T022131Z
UID:30624-1695378600-1695382200@www.fst.um.edu.mo
SUMMARY:Online Performance Analysis for Gas Turbine
DESCRIPTION:Instructors/Speakers\nProf. Dengji ZHOU\n \nAssociate Professor\, \nSchool of Mechanical Engineering\,   \nShanghai Jiao Tong University
URL:https://www.fst.um.edu.mo/event/online-performance-analysis-for-gas-turbine/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/09/seminar-Sep2023-Zhou.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230724T103000
DTEND;TZID=Asia/Macau:20230724T113000
DTSTAMP:20260617T005201
CREATED:20230719T100833Z
LAST-MODIFIED:20230719T100833Z
UID:29304-1690194600-1690198200@www.fst.um.edu.mo
SUMMARY:Materials Design and Device Optimizations for Non-fullerene Organic Solar Cells
DESCRIPTION:Instructors/Speakers\nProf. He YAN\n \nProfessor\, \nDepartment of Chemistry\,   \nHong Kong University of Science and Technology
URL:https://www.fst.um.edu.mo/event/materials-design-and-device-optimizations-for-non-fullerene-organic-solar-cells/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/07/seminar-He-2-Jul2023.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230718T143000
DTEND;TZID=Asia/Macau:20230718T153000
DTSTAMP:20260617T005201
CREATED:20230621T084157Z
LAST-MODIFIED:20230718T023129Z
UID:28867-1689690600-1689694200@www.fst.um.edu.mo
SUMMARY:Efficient inverted perovskite solar cells using small molecules with phosphonic acid as anchoring group
DESCRIPTION:This Seminar is postponed to 14:30-15:30\, 18 Jul 2023.  \n \nInstructors/Speakers\nProf. Zhu-Bing HE\n \nProfessor\, \nDepartment of Material Science and Engineering\,   \nSouthern University of Science and Technology \n  \n  \n  \n 
URL:https://www.fst.um.edu.mo/event/efficient-inverted-perovskite-solar-cells-using-small-molecules-with-phosphonic-acid-as-anchoring-group/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/06/seminar-He-Jul2023.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230713T103000
DTEND;TZID=Asia/Macau:20230713T233000
DTSTAMP:20260617T005201
CREATED:20230707T101822Z
LAST-MODIFIED:20230707T101822Z
UID:29087-1689244200-1689291000@www.fst.um.edu.mo
SUMMARY:Highly Luminescent Carbon Dots Synthesized in Air and Solid States
DESCRIPTION:Instructors/Speakers\nProf. Huan-Ming XIONG \nProfessor\, \nDepartment of Chemistry\,   \nFudan University\, China \n  \n 
URL:https://www.fst.um.edu.mo/event/highly-luminescent-carbon-dots-synthesized-in-air-and-solid-states/
LOCATION:N23-1004B
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/07/seminar-XIONG-Jul2023.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230529T100000
DTEND;TZID=Asia/Macau:20230529T110000
DTSTAMP:20260617T005201
CREATED:20230525T095901Z
LAST-MODIFIED:20230525T095901Z
UID:28246-1685354400-1685358000@www.fst.um.edu.mo
SUMMARY:Engineering Carbonaceous Anode Interfacial Chemistry toward Better Potassium Ion Battery
DESCRIPTION:Instructors/Speakers\nProf. Jilei LIU\n \nProfessor\, \nCollege of Materials and Engineering\,  \nHunan University \n  \n 
URL:https://www.fst.um.edu.mo/event/engineering-carbonaceous-anode-interfacial-chemistry-toward-better-potassium-ion-battery/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/05/seminar-May2023-1.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230428T100000
DTEND;TZID=Asia/Macau:20230428T110000
DTSTAMP:20260617T005201
CREATED:20230420T032512Z
LAST-MODIFIED:20230420T032512Z
UID:27653-1682676000-1682679600@www.fst.um.edu.mo
SUMMARY:Advanced Electrocatalysts for Water Electrolysis under the Carbon Neutrality Scenarios
DESCRIPTION:Instructors/Speakers\nProf. Jin-Song HU\n \nProfessor\, \nInstituite of Chemistry\, Chinese Academy of Science \n  \n 
URL:https://www.fst.um.edu.mo/event/advanced-electrocatalysts-for-water-electrolysis-under-the-carbon-neutrality-scenarios/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/03/FST-Seminar-Poster-for-Prof.-Jin-Song-Hu-Apr2023.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230317T100000
DTEND;TZID=Asia/Macau:20230317T110000
DTSTAMP:20260617T005201
CREATED:20230306T034531Z
LAST-MODIFIED:20230309T021215Z
UID:26308-1679047200-1679050800@www.fst.um.edu.mo
SUMMARY:Carbon Dot Luminophores
DESCRIPTION:Instructors/Speakers\nProf. Andrey ROGACH\n \nChair Professor\, \nDepartment of Material Science and Engineering\, City University of Hong Kong \nAbstract \nCarbon dots (CDs) – small crystalline or amorphous carbon-based quasi-spherical nanoparticles – have recently attracted much attention as promising fluorescent materials. One of their widely accepted advantages is the simplicity of the formation of highly luminescent CDs from a wide variety of organic precursors. At the same time\, several recent studies on these chemically synthesized CDs raised questions about the chemical nature of the resulting products; their strong luminescence can originate from the presence of molecular organic fluorophores. On the other hand\, use of proper synthetic procedures yield purely carbon dot samples of different sizes; color-tunable fluorescence of CDs with blue\, green\, yellow\, orange\, red and even near-infrared emission can be achieved\, with the color depending on size of the π-conjugated domains in the CD graphitic core. Recently\, we have extended the family of these light-emitting colloidal carbon nanoparticles towards other shapes\, such as nanorods with linearly polarized emission\, nanobelts and nanorolls. Application of CDs in luminescent solar concentrators has been demonstrated. \nBiography \nAndrey L. Rogach is a Chair Professor of Photonics Materials at the Department of Materials Science and Engineering\, and the Founding Director of the Centre for Functional Photonics (CFP) at City University of Hong Kong\, which he joined in 2009. He received his Ph.D. in Physical Chemistry (1995) from the Belarusian State University studying formation and properties of silver nanoparticles in\ndifferent media\, and completed his habilitation in Experimental Physics (2009) at the University of Munich\, Germany\, on light emission and harvesting with semiconductor nanocrystals. His research focuses on synthesis\, assembly and optical spectroscopy of colloidal semiconductor nanocrystals\, and their use for energy-related and optoelectronic applications. He authored over 500 scientific\npublications with an h-index of 134 {Google Scholar} in these fields that have been extensively (over 65\,000) cited\, which ranked him as Highly Cited Researcher (Clarivate Analytics) – Cross-Field 2018 & 2019 and Material Science 2020-2022. He is a Foreign Member of the Academia Europaea\, and a Fellow of the Electromagnetic Academy\, USA. \n  \n 
URL:https://www.fst.um.edu.mo/event/carbon-dot-luminophores/
LOCATION:N21-G013
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2023/03/DPC-seminar-poster-Mar2023.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230216T150000
DTEND;TZID=Asia/Macau:20230216T160000
DTSTAMP:20260617T005201
CREATED:20230215T081543Z
LAST-MODIFIED:20230215T081543Z
UID:25978-1676559600-1676563200@www.fst.um.edu.mo
SUMMARY:Crystalline Assembly Catalysts Combining Oxidation- Reduction Units for Artificial Photosynthesis
DESCRIPTION:Instructors/Speakers\nProf. Ya-Qian LAN\n \nProfessor\, \nSchool of Chemistry\, South China Normal University \n  \n  \n 
URL:https://www.fst.um.edu.mo/event/crystalline-assembly-catalysts-combining-oxidation-reduction-units-for-artificial-photosynthesis/
LOCATION:N23-4018
CATEGORIES:event_list,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20230115T110000
DTEND;TZID=Asia/Macau:20230115T170000
DTSTAMP:20260617T005201
CREATED:20230105T094958Z
LAST-MODIFIED:20230113T091400Z
UID:25584-1673780400-1673802000@www.fst.um.edu.mo
SUMMARY:2023 UM FST Online Open Day 2023 澳門大學科技學院線上開放日
DESCRIPTION:澳大科技學院準備了一系列精彩活動，讓大眾體驗創新科技、感受大學生活、選擇心儀學科、探索未來發展！\nFST has prepared many activities at UM Open Day on 15 Jan\, 2023. Come to experience and explore the amazing campus life in FST! \n\n\n\n\n\n\n科技學院簡介 Introduction of FST\n課程諮詢 Programme Information\n展覽 Exhibition\n講座 Lecture\n優秀校友分享 Excellent Alumni Sharing\n學生會分享 Student Association Sharing \n\n\n\n\n\nDate: 15 Jan 2023 星期日 Time:  11:00-17:00 Venue: Online \nHow to join: 點擊日程表上Zoom連結及輸入密碼 *會議號及密碼請於以下日程表查找 \nTimetable 日程表 (點擊圖片放大) \n \n 
URL:https://www.fst.um.edu.mo/event/2023-um-fst-online-open-day/
LOCATION:Online
CATEGORIES:activities,cee_events,ece_events,eme_events,event_list,math_events,ost_events,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20221130T100000
DTEND;TZID=Asia/Macau:20221130T110000
DTSTAMP:20260617T005201
CREATED:20221125T023434Z
LAST-MODIFIED:20221125T023434Z
UID:25256-1669802400-1669806000@www.fst.um.edu.mo
SUMMARY:Electric Manipulation and Readout of Spintronic Materials
DESCRIPTION:Instructors/Speakers\nProf. Rui WU\n \nProfessor\, \nSpin-X Institute\, South China University of Technology \n  \nAbstract \nElectric manipulation of magnetism is expected to reduce the size and power consumption of spintronic devices. However\, the current material systems in which magnetic properties can be controlled electrically often suffer from drawbacks such as high operation voltage\, small magnetoelectric coefficient\, and obvious leakage current (especially in the 3-1 magnetoelectric composite system). In this talk\, I will introduce our latest results on 3-1 type magnetoelectric nanocomposite films. Through material and structural design\, we have successfully solved the leakage problem of 3-1 magnetoelectric systems\, realized the obvious converse magnetoelectric effect (i.e. electric control of magnetism) and self-biased converse magnetoelectric effects at room temperature\, which is of great significance for the device applications. In addition\, the two-dimensional/van der Waals magnets that emerged in the past five years are expected to overcome Moore’s law limit in spintronic devices\, and this report will also introduce our latest progress in the electric readout of magnetism in the van der Waals antiferromagnet. \n  \nBiography \nDr. Rui Wu is a full professor (PI) at the Spin-X Institute\, South China University of Technology. In 2015\, he obtained his PhD in condensed matter physics from Peking University\, and then has been engaged in postdoctoral research at the University of Cambridge\, the Norwegian University of Science and Technology\, and the University of Mainz. He was an associate research scientist at the Beijing Academy of Quantum Information Sciences in 2021. He is mainly engaged in the research of low-dimensional spintronic materials and devices closely related to next-generation information storage and computing technology. He has published 46 papers in journals including Nature Electron.\, Advanced Functional Materials.\, ACS Appl. Mater. & Interfaces\, Phys. Rev. Appl.\, Phys Rev. B\, etc.  \n  \n 
URL:https://www.fst.um.edu.mo/event/electric-manipulation-and-readout-of-spintronic-materials/
CATEGORIES:event_list,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20221109T110000
DTEND;TZID=Asia/Macau:20221109T114500
DTSTAMP:20260617T005201
CREATED:20221107T031313Z
LAST-MODIFIED:20221116T070040Z
UID:24979-1667991600-1667994300@www.fst.um.edu.mo
SUMMARY:Under the influence of the Covid-19\, guiding Macau students to start their business - from craft beer breweries to the business of cat litter and cat-face recognition system
DESCRIPTION:Instructors/Speakers\nDr. Yu Ming TANG\n \nSenior Instructor\, \nDepartment of Physics and Chemistry\, FST \n  \nAbstract \nUniversities are the major force and platform that drive innovation\, entrepreneurship\, and commercialisation of scientific research results in Macao. In this talk\, speaker will introduce the Cheng Yu Tung College (CYTC) initiated project on Entrepreneurship and Innovation Project and Industry-University-Research Partnership Project\, hence reviewing the role of Resident College (RC) on these projects. For instance\, cooperating with Faculty of Health Science of the University of Macau to study the anticancer effects of tea catechins alone or in combination with tyrosine kinase inhibitors in various in vitro and in vivo non-small cell lung cancer models. Cooperating with the Computing Science team in Shantou University to develop a face recognition system for cats which aim to monitor the numbers of abundant cats systematically.  \nBiography \nDr. Tang Yu Ming obtained his Ph.d in Physics from the Hong Kong Polytechnic University. His subspecialty interests’ areas include gas-sensing technology\, switchable mirror\, vacuum technology\, materials characterization\, Nano-technology…etc. After graduation\, he became a Resident Fellow in the Cheng Yu Tung College (CYTC) in the University of Macau. He guided the teams in CYTC to participate in different kind of innovation and entrepreneurship competitions. The teams started several companies including the unique craft beer brewery in Macau – 2048 Funny eye brewery\, 3D Kung Fu modeling company – Fit Me\, STEM education – 4Cs Education (Macau) Limited\, cat litter company converting Brewer Spent Grain BSG into cat litter – BioPeTech (Macau) Limtiada. From Aug 2019 to present\, the teams won 18 awards of innovation and entrepreneurship competitions including the Silver Award of 2019 Macau Youth Entrepreneurship and Innovation Competition\, the championship of 2020 Bank of China Trophy One Million Dollar Macao Regional Entrepreneurship Competition etc. \n 
URL:https://www.fst.um.edu.mo/event/under-the-influence-of-the-covid-19-guiding-macau-students-to-start-their-business-from-craft-beer-breweries-to-the-business-of-cat-litter-and-cat-face-recognition-system/
LOCATION:E11 – G015
CATEGORIES:event_list,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20220906T090000
DTEND;TZID=Asia/Macau:20220906T215000
DTSTAMP:20260617T005201
CREATED:20220902T013522Z
LAST-MODIFIED:20221108T082246Z
UID:24096-1662454800-1662501000@www.fst.um.edu.mo
SUMMARY:High-performance Perovskite Optoelectronic Devices via Grain Surface Capping
DESCRIPTION:Instructors/Speakers\nProf. Zhanhua Wei\nCollege of Materials Science and Engineering Huagiao University \nAbstract\nMetal halide perovskites are emerging as promising optoelectronic materials with advantages like easy solution-based fabrication\, low material cost\, high defect tolerance\, and high PLQY. Our group has been focusing on perovskite LEDs for years. In 2018\, we prepared a quasi-core-shell structure of CsPbBry@CHaNHgBr\, passivated the non-radiative defects\, improved charge injection balance\, and achieved a milestone EQE of over 20%. In 2021\, we utilized the TFPPO to tune the crystalline dimension of 2D/3D perovskite\, reducing the defect formation and significantly improving the PLQY. As a result\, we got an impressive EQE of over 25%. Moreover\, we will introduce some progress about manipulating crystal growth\, regulating phase composition\, optimizing device structure\, and lead-free perovskite-based LEDs. As for the perovskite solar cells (PSCs)\, we have been focused on preparing ultra-pure FAPblg active layer\, synthesis of functional fullerene and the application in PCs\, perovskite/silicon tandem solar cells. Recently\, we successfully boosted the power conversion efficiency to over 25 % with an operational lifetime of over 1\,500 h. \nBiography\nZhanhua Wei is a full-time professor at the Institute of Luminescent Materials and Information Displays\, College of Materials Science and Engineering\, Huaqiao University\, China. He received his B.S. degree in 2011 from the Department of Chemistry\, Xiamen University\, China\, and his Ph.D. degree in 2015 from Prof. Shihe Yang’s group\, Department of Chemistry\, Hong Kong University of Science and Technology\, China. After postdoc research with Prof. Qihua Xiong at Nanyang Technological University\, he joined Huaqiao University as a principal investigator in May 2016. His current research focuses on perovskite light-emitting diodes\, perovskite solar cells\, and other optoelectronic materials and devices. He has published over 60 peer-reviewed papers in scientific journals like Nature\, J. Am. Chem. Soc. and Adv. Mater.
URL:https://www.fst.um.edu.mo/event/high-performance-perovskite-optoelectronic-devices-via-grain-surface-capping/
CATEGORIES:event_list,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20220905T104000
DTEND;TZID=Asia/Macau:20220905T112000
DTSTAMP:20260617T005201
CREATED:20220902T011720Z
LAST-MODIFIED:20221108T082456Z
UID:24088-1662374400-1662376800@www.fst.um.edu.mo
SUMMARY:Fullerene-Based Materials for Efficient and Stable Perovskite Solar Cells
DESCRIPTION:Instructors/Speakers\nProf. Chengbo Tian\nCollege of Materials Science and Engineering\, Huaqiao University \nZoom No.: 97895805410\, Password: 072087  \nAbstract\nPerovskite solar cells are promising candidates for next-generation photovoltaic technology due to their low-cost\, scalable fabrication and high power conversion efficiency (PCE) above 25% Fullerenes and their derivatives can act as efficient electron transport layers\, interfacial modification layers\, and trap state passivators in perovskite solar cells\, all of which play an important role in increasing efficiency\, reducing current hysteresis\, and enhancing device stability\, Therefore\, understanding the relationship between the chemical structures of fullerenes and their photovoltaic properties is the key scientific issues in this field. In this report\, we’ll introduce the progress of our recent works on the functional fullerene materials and their related highpertormance perovskite solar cells. \nBiography\nChengbo Tian is an associate professor in the Institute of Luminescent Materials and Information Displays\, College of Materials Science and Engineering\, Huaqiao University. He received his Ph.D. degree in Inorganic Chemistry from Xiamen University in 2015. After working as a postdoctoral fellow at University of Texas at El Paso and Huazhong University of Science and Technology\, he joined Huagiao University in 2019. His current research interest includes the coordination chemistry of fullerenes\, functional fullerenes\, and their photovoltaicapplications. \n  \n 
URL:https://www.fst.um.edu.mo/event/fullerene-based-materials-for-efficient-and-stable-perovskite-solar-cells/
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2022/09/FST-Seminar-Poster-for-Prof.-Chengbo-Tian-v2.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20220905T095000
DTEND;TZID=Asia/Macau:20220905T102000
DTSTAMP:20260617T005201
CREATED:20220902T012401Z
LAST-MODIFIED:20221108T082429Z
UID:24091-1662371400-1662373200@www.fst.um.edu.mo
SUMMARY:Ultrafine 1D Multimetallic Nanowires for High-Performance Electrocatalysis
DESCRIPTION:Instructors/Speakers\nProf. Shuifen Xie\nCollege of Materials Science and Engineering\, Huaqiao University \nZoom No.: 97895805410， Password: 072087 \nAbstract\nExploring active and durable Electrocatalysts is pivotal to the development of green energy conversion technologies\, such as fuel cells\, water splitting\, CO2 reduction et al. Ultrafine 1D multimetallic nanowires are a class of intriguing electrocatalyst candidates\, which present unique anisotropic characteristics and superhigh atomic exposures. Precise tuning of their elementa combination and distribution can offer great possibilities to optimize the electrochemical reactivities. In this talk\, we focus on atomic-level constructions of precise surface/interface structures on ultrafine 1D multimetallic nanomaterials for electrocatalytic applications. We find that surface heteroatom pairs\, oxide/metal inverse interfaces\, atomic shell-thickness control as well as amorphous phase are effective strategies for improving the electrocatalytic activities and stabilities of ultrafine1D multimetallicnanowires. \nBiography\nDr. Shuifen Xie is a full professor in College of Materials Science and Engineering\, Huaqiao University\, China. He got his Ph.D. degree in Physical Chemistry from Xiamen University (China) in 2013. From Sep. 2011 to Aug. 2013\, he worked as a visiting scholar at Georgia Institute of Technology with Prof. Younan Xia. Before he joined Huaqiao University\, he worked as an associate Professor in Department of Physics of Xiamen University for 2 years (2014-2016). His research interest is focused on the atomic-level design and synthesis of inorganic nanomaterials for\nelectrocatalytic applications\, including fuel cells\, water splitting\, CO\, reduction et al. To date\, he has published 59 papers\, including JACS\, Angew. Chem.\, PNAS\, Nano Lett. and other journals.
URL:https://www.fst.um.edu.mo/event/ultrafine-1d-multimetallic-nanowires-for-high-performance-electrocatalysis/
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2022/09/FST-Seminar-Poster-For-Prof.Shuifen-Xie-v2.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20220905T090000
DTEND;TZID=Asia/Macau:20220905T094000
DTSTAMP:20260617T005201
CREATED:20220902T012909Z
LAST-MODIFIED:20221108T082442Z
UID:24093-1662368400-1662370800@www.fst.um.edu.mo
SUMMARY:Precise Synthesis Based on Tetracoordinate Boron Intermediates
DESCRIPTION:Instructors/Speakers\nProf. Qiuling Song\nCollege of Materials Science and Engineering Huaqiao University \nZoom No.: 97895805410， Password: 072087 \nAbstract\nOrganoboron compounds are a class of multifunctional reagents for the construction of carbon-carbon and carbon-heteroatom bonds in modern synthetic chemistry. The transformation of organoboron compounds is usually carried out through tetracoordinate boron intermediates\, mainly including additions to unsaturated bonds\, rearrangements\, transmetallations and so on. Although great progress has been achieved on tetracoordinate boron species\, there are still shortcomings such as sparse activation modes\, paucity of reaction strategies and difficulties on stereoselective control. In the past several years\, we have focused on the development of unconventional transformations of organoboron compounds based upon the design of tetracoordinate boron intermediates\, including the following three aspects: 1) the construction of C-B bonds; 2) the construction of C-C bonds; 3) the construction of chiral C-H bonds. \nBiography\nProf. Song received a B.S. degree from Zhengzhou University (1998)\, M.S. degree from Peking University (2001) working with Professor Zhenfeng Xi\, and Ph.D. at Princeton University (2006) working with Professor Robert Pascal. After conducting industrial pharmaceutical research for several years\, she joined the faculty in the College of Materials Science at Huaqiao University in 2012. Prof. Song’s research interests range from organoboron and organofluorine chemistry to free-radical chemistry with an emphasis on the synthesis of biologically active organic molecules following green chemistry approaches. She has published over 170 papers with H-index 36. She serves as an Associate Editor of the Journal of Heterocyclic Chemistry and Green Synthesis & Catalysis and on the Editorial Board of Chinese Chemical Letters and Chinese Journal of Pharmaceuticals. Among her awards and honors\, Prof. Song was selected as Fellow of The Royal Society Chemistry (2021)\, and awarded Theme Chemistry Journal Award (2021)\, several Asian Core Program Lectureship Awards (2018 and 2019)\, the Quanzhou Natural Science First Prize (2017)\, and received the 6th China Overseas Chinese Contribution Award (2016) and the Fujian Province Hundred Talents Program (2013).
URL:https://www.fst.um.edu.mo/event/precise-synthesis-based-on-tetracoordinate-boron-intermediates/
CATEGORIES:event_list,pc_events,seminarslectures
ATTACH;FMTTYPE=image/jpeg:https://www.fst.um.edu.mo/wp-content/uploads/2022/09/FST-Seminar-Poster-for-Prof.Qiuling-Song-v2.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20220815T100000
DTEND;TZID=Asia/Macau:20220815T120000
DTSTAMP:20260617T005201
CREATED:20220729T063009Z
LAST-MODIFIED:20220927T032624Z
UID:23406-1660557600-1660564800@www.fst.um.edu.mo
SUMMARY:2023/2024 FST Postgraduate Programmes Online Briefing (Application Deadline: 2022.08.12@16:00)2023/2024學年科技學院碩博士線上招生宣講會 (報名截止: 2022.08.12@16:00)
DESCRIPTION:為提供更多渠道令各地學生了解澳大碩博士學位的資訊，學院將於8月15日(一)舉行2023/2024學年科技學院碩博士線上招生宣講會，詳情如下:\n\nIn order to provide more channels for students from all over the world to learn about UM’s postgraduate programmes\, the Faculty will hold the 2023/2024 Faculty of Science and Technology online admission briefing on August 15 (Mon). Details are as below: \n \n線上宣講會日期Date: 2022.8.15 (Monday)\n時間Time: 10:00 – 12:00 \n地點Venue: Online (*參加者請先網上報名，宣講會連結及密碼將於 8月12日18:00發送給參加者)\nPlease register first\, the link and password of the online briefing will be sent to participants on 12 Aug at 1600)\n語言Language: 英語English及中文Chinese\n報名Registration (截止8月12日16:00) : https://umac.au1.qualtrics.com/jfe/form/SV_6svtpjpBsMOCl1A \n線上宣講會時間表\n\n\n\n\n時間 \n\n\n內容 \n\n\n\n\n10:00-10:20 \n\n\n科技學院概況及招生政策解讀 \n\n\n\n\n10:20-10:35 \n\n\n電腦與信息科學系招生介紹 \n\n\n\n\n10:35-10:50 \n\n\n土木與環境工程系招生介紹 \n\n\n\n\n10:50-11:05 \n\n\n電機及電腦工程系招生介紹 \n\n\n\n\n11:05-11:20 \n\n\n機電工程系招生介紹 \n\n\n\n\n11:20-11:35 \n\n\n數學系招生介紹 \n\n\n\n\n11:35-12:00 \n\n\n在線咨詢 \n\n\n\n\n \n2023/2024學年科技學院以下碩士和博士課程將進行招生： \n\nMaster of Science in Civil Engineering\nMaster of Science in Computer Science\nMaster of Science in E-Commerce Technology\nMaster of Science in Electrical and Computer Engineering\nMaster of Science in Electromechanical Engineering\nMaster of Science in Mathematics\nMaster of Science in Data Science with Specialization in Artificial Intelligence Applications\nMaster of Science in Financial Technology\nMaster of Science in Internet of Things\nMSc in Robotics and Autonomous Systems\nMSc in Artificial Intelligence\nPhD in Civil Engineering\nPhD in Computer Science\nPhD in Electrical and Computer Engineering\nPhD in Electromechanical Engineering\nPhD in Mathematics\n\n* 微電子碩士課程由澳門大學微電子研究院負責招生 \n* 應用物理及材料方向博士課程由澳門大學應用物理及材料工程研究院負責招生 \n2023/2024學年博士學位及碩士學位申請時間：\n招收推薦免試攻讀研究生(博士學位及碩士學位課程)  \n\n博士學位課程 : 2022年6月15日至10月17日\n碩士學位課程 : 2022年8月15日至10月17日\n\n博士學位課程預計開放申請時間： \n\n2022年8月 至 2021年10月 (第一期)\n2022年10月 至 2022年2月 (第二期)\n\n碩士學位課程預計開放申請時間： \n\n2022年10月 至 2022年2月\n\n *報名須知可訪問澳大研究生院網站：https://grs.um.edu.mo \n\n\n\n\n \n\n\n \n \n \n \n \n \n \n \n 
URL:https://www.fst.um.edu.mo/event/2023-2024-fst-postgraduate-programmes-admission-online-briefing/
LOCATION:Online
CATEGORIES:activities,cee_events,ece_events,eme_events,event_list,math_events,pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20220116
DTEND;VALUE=DATE:20220117
DTSTAMP:20260617T005202
CREATED:20220111T065209Z
LAST-MODIFIED:20220927T033255Z
UID:20002-1642291200-1642377599@www.fst.um.edu.mo
SUMMARY:2022 UM FST Online Open Day2022線上澳門大學科技學院學放日
DESCRIPTION:澳大科技學院準備了一系列精彩活動，讓學生們親身體驗創新科技、感受大學生活、選擇心儀學科、探索未來發展！\n\n\nFST has prepared many activities at UM Open Day. Experience and explore the amazing campus life in UM.\n \n\n\n互動攤位 Interactive Booth\n工作坊 Workshops\n體驗活動 Experience and Activities\n實驗室導賞 Lab Tour\n講座 Lecture\n \n\n\nDate: 16 Jan 2022 星期日\nTime:  11:00-17:00\nVenue: E-11 Faculty of Science and Technology\, UM\n\n \n 
URL:https://www.fst.um.edu.mo/event/2022-fst-open-day/
LOCATION:Online
CATEGORIES:activities,cee_events,ece_events,eme_events,event_list,math_events,pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20211213T111500
DTEND;TZID=Asia/Macau:20211213T123000
DTSTAMP:20260617T005202
CREATED:20211202T085406Z
LAST-MODIFIED:20220927T040237Z
UID:19624-1639394100-1639398600@www.fst.um.edu.mo
SUMMARY:UM Doctor honoris causa Lecture: Innovation for Billions by Dr Chio Fai Aglaia Kong 澳門大學榮譽博士講座 ─ 億萬創新 ─ 江朝暉博士
DESCRIPTION:Date: 13 December 2021\nTime:  11:15 am-12:30 pm\nVenue: N2 University Hall\, University of Macau \n澳門大學榮譽博士江朝暉將於12月13日（星期一）在澳門大學以“億萬創新” 為題進行演講，歡迎有興趣人士參加。 \n江朝暉女士是一位傑出的科技專家和技術領導者。曾參與研發的重大發明和專利，至今累積超過15項與存儲虛擬化、導航、文件系統和電源管理相關，無不實用性高。她往往能把高深的科技和理論化繁為簡，普及大眾使用，提升人類生活便利度。同時，她也熱衷推動全球科技事業的發展，她為全球提供300多場活動演講，分享其專業知識及創新理念；為海外多家初創公司提供顧問服務；擔任華東師範大學和中國浙江大學顧問教授；任職思科中國期間，開發新產品以滿足中國獨特趨勢帶來的需求，並為中國提供智慧城市解決方案；現職廣東躍昉科技公司，是為推進國內自主研發生產的開源芯片，以滿足國內芯片的高需求，助力打造屬於中國的芯片。講座將於12月13日（星期一）上午11時15分在澳門大學N2大學會堂，以英語進行，有興趣人士請於12月9日或之前登入以下網址報名：https://umac.au1.qualtrics.com/jfe/form/SV_3emE0lbU5xsHQjA 查詢可以以電郵聯絡林小姐: alicewmlam@um.edu.mo \nChio Fai Aglaia Kong\, an honorary doctor of the University of Macau (UM) on Monday 13 December will give a talk titled ‘Innovation for Billions’ at UM. All are welcome. \nChio Fai Aglaia Kong is an outstanding technology expert and technology leader. She participated into the research and development of major inventions and patents\, and has accumulated more than 15 items related to storage virtualization\, navigation\, file system and power management\, all of which are highly practical. Ms. Chio Fai Aglaia Kong can simplify advanced technology and theories\, popularize the use of them\, and made human life easier and convenient. At the same time\, she is also keen to promote the development of global science and technology. She has provided more than 300 lectures around the world to share her professional knowledge and innovative ideas; provided consulting services for numerical overseas companies; served as a consulting professor at East China Normal University and Zhejiang University in China ; When she was working at Cisco China\, she developed new products to meet the needs of Chinese market and provided smart city solutions to China; now she is working at Guangdong Yuefang Technology Co.\, Ltd. to promote local research and development and production of open-source chips\, in order to meet the high demand and create a ‘Made in China’ chip in China. The lecture will be held at the University Hall N2 of the University of Macau at 11:15 am on December 13th (Monday) in English. Please visit the following website and register on or before December 9th https://umac.au1.qualtrics.com/jfe/form/SV_3emE0lbU5xsHQjA. For inquiries\, please contact Ms. Lam via alicewmlam@um.edu.mo \n \n \n \n \n \n \n \n 
URL:https://www.fst.um.edu.mo/event/university-of-macau-doctor-honoris-causa-lecture-innovation-for-billions-by-dr-chio-fai-aglaia-kong/
LOCATION:N2\, University Hall\, University of Macau
CATEGORIES:cee_events,ece_events,eme_events,event_list,math_events,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20210727T100000
DTEND;TZID=Asia/Macau:20210729T173000
DTSTAMP:20260617T005202
CREATED:20210601T050129Z
LAST-MODIFIED:20220927T033403Z
UID:17133-1627380000-1627579800@www.fst.um.edu.mo
SUMMARY:Novel Energy and Materials Engineering Summer Camp 2021 嶄新能源及材料工程夏令營2021
DESCRIPTION:有想過可以親手製作鋰電池嗎？\n嶄新能源的產生和儲存方法使我們的日常生活有了很大的進步，特別是高效鋰電池的發明，使電動汽車、各種隨身電子產品、筆記型電腦等得以應用\, 在我們生活各方面帶來所未有的便利。在這個夏令營中，我們會從基本原理開始，帶你走進鋰電池的研究前沿，瞭解業界的最新發展。更重要的是，你將會有機會在我們的實驗室中，和最前線的科研人員從原材料開始製造自己的鋰離子電池，並利用它們爭取最終的王者榮耀。 \nDate: July 27-29  \nTime: 1000 – 1730 \nApplication: please download and submit the application form to royleong@um.edu.mo by 14 June 2021 (Download) \nPlease click this link to see more details of each camp:  Summer Camp Info \n\n \n \n \n \n \n \n \n \n  \n 
URL:https://www.fst.um.edu.mo/event/novel-energy-and-materials-engineering-summer-camp-2021/
LOCATION:University of Macau
CATEGORIES:activities,event_list,pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20210622T100000
DTEND;TZID=Asia/Macau:20210622T110000
DTSTAMP:20260617T005202
CREATED:20210615T040049Z
LAST-MODIFIED:20210615T040212Z
UID:17366-1624356000-1624359600@www.fst.um.edu.mo
SUMMARY:Porous Conductive Textiles for Wearable Electronics
DESCRIPTION:Speaker:\nProf. Zijian ZHENG\,  \nProfessor at the Institute of Textile and Clothing\,                    \nThe Hong Kong Polytechnic University \nHong Kong \n  \nAbstract\nWearable electronics plays an important role in the realization of health monitoring and rehabilitation\, Internet of Things (IoTs)\, and soft robotics. These wearable devices and systems should be highly flexible\, stretchable and even washable. In addition\, they should be comfortable to wear in a long term. This talk will discuss the recent development of conductive textile materials and their applications in wearable electronics. In particular\, we will discuss 1) the development of highly conductive\, flexible and washable conductive fibers\, yarns and fabrics through polymer-assisted metal deposition (PAMD)\, that can be used for a wide range of wearable sensory and energy-storage uses; and 2) the development of highly permeable stretchable conductors\, namely liquid metal fiber mat (LMFM)\, which enables long-term wearable and 3D monolithic stretchable electronics. \n  \nBiography\nProf. Zijian Zheng is currently a Full Professor at the Institute of Textile and Clothing (ITC) at The Hong Kong Polytechnic University. His research interests are surface and polymer science\, nanolithography\, flexible and wearable materials and devices. He received his B. Eng. in Chemical Engineering at Tsinghua University in 2003\, and PhD in Chemistry at University of Cambridge in 2007 (Supervisor: Prof. Wilhelm T. S. Huck). He has published 100+ papers in high-impact international scientific journals including Science\, Nature Communications\, Advanced Materials\, Journal of the America Chemical Society\, Angewandte Chemie. He also files over 20 patents and is recipient of more than 15 academic awards. He is Editor-in-Chief of EcoMat\, a flagship open access journal in green energy and environment of Wiley\, and Guest Editor of Advanced Materials and Small. He is elected as Founding Member of The Hong Kong Young Academy of Sciences. \n  \n 
URL:https://www.fst.um.edu.mo/event/porous-conductive-textiles-for-wearable-electronics/
LOCATION:N23-4018
CATEGORIES:pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20191216T093000
DTEND;TZID=Asia/Macau:20191216T103000
DTSTAMP:20260617T005202
CREATED:20191216T080109Z
LAST-MODIFIED:20201203T094028Z
UID:6446-1576488600-1576492200@www.fst.um.edu.mo
SUMMARY:Decellularized matrix composites for bone tissue regeneration
DESCRIPTION:Instructors/Speakers\nProf. Huaqiong LISchool of Biomedical EngineeringWenzhou Medical UniversityWengzhouChina \nAbstract\nProf. Huaqiong LI is an Associate Professor at School of Biomedical Engineering of Wenzhou Medical University (WMU) and Principal Investigator at Wenzhou Institute\, University of Chinese Academy of Science (Wenzhou Institute of Biomaterials and Engineering\, WIBE). Before he joined WMU and WIBE in 2015\, he worked in Singapore for two years after completing his PhD study in Nanyang Technological University. His current research interests are development of biomaterials using advanced technologies to guide cell behavior and then applied to the field of tissue engineering and regenerative medicine. In particular\, he and his research team have been developing materials\, mainly derived from natural extracellular matrix with attenuated immunogenicity\, for application of bone and cartilage reconstructions. \nBiography\nProf. Huaqiong LI is an Associate Professor at School of Biomedical Engineering of Wenzhou Medical University (WMU) and Principal Investigator at Wenzhou Institute\, University of Chinese Academy of Science (Wenzhou Institute of Biomaterials and Engineering\, WIBE). Before he joined in WMU and WIBE in 2015\, he worked in Singapore for two years after completing his PhD study in Nanyang Technological University. His current research interests are development of biomaterials using advanced technologies to guide cell behavior and then applied to the field of tissue engineering and regenerative medicine. In particular\, he and his research team have been developing materials\, mainly derived from natural extracellular matrix with attenuated immunogenicity\, for application of bone and cartilage reconstructions. \n 
URL:https://www.fst.um.edu.mo/event/decellularized-matrix-composites-for-bone-tissue-regeneration/
LOCATION:E12-G003
CATEGORIES:pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20191210T143000
DTEND;TZID=Asia/Macau:20191210T153000
DTSTAMP:20260617T005202
CREATED:20191210T081702Z
LAST-MODIFIED:20201203T094057Z
UID:6453-1575988200-1575991800@www.fst.um.edu.mo
SUMMARY:New Developments in Lithium Niobate Nanophotonics
DESCRIPTION:Instructors/Speakers\nDr. Maria-Pilar BERNAL\nResearch Director of FEMTO-ST (Franche-Comté Electronics Mechanics Thermal Science and Optics-Sciences and Technologies) Institute\nCNRS (National Scientific Research Center)\nFrance \nAbstract\nThe optics community has used since decades lithium niobate material for various application like optical modulation\, lasers\, acousto-optical devices etc. Due to its multi-physical nature (it possesses high electro-optic\, acousto-optical\, photorefractive\, pyroelectric\, and nonlinear coefficients)\, it is rather straightforward to imagine a lithium niobate chip in which thousands of optical functions could be incorporated. In this talk\, work that Dr. Bernal’s group at CNRS has been doing since the last 10 years in order to achieve this goal will be presented. Different active optical functions based on lithium niobate photonic crystals and plasmonic nanostructures combined with lithium niobate will be presented. The possibility of currently working with lithium niobate thin films on SiO2 has allowed us to radically improve the optical performances of these devices. Results of novel photonic nanostructures based on single crystal lithium niobate will be shown. \nBiography\nDr. Maria-Pilar Bernal received her Bachelor degree in physics at University of Zaragoza\, Spain in 1993. In the year of 1998\, she obtained her doctoral degree in physics through a joint study program between University of Zaragoza and IBM Research-Almaden in California USA. She then worked as a postdoctoral fellow in EPFL Switzerland on near-field and nano optics for about three years which began from September 1998. Since 2003\, she worked as a researcher in FEMTO-ST institute CNRS(法國國家科研中心). Currently she is the Directrice of FEMTO-ST institute in Besancon. Her research works include electro-optic exaltation and nonlinear effect enhancement in lithium niobate photonics. She also works on plasmonics such as utilizing annular aperture array structure for extraordinary optical transmission and other sensing applications. She had already been the responsible person for various projects such as ANR(法國科研署)\, DGA(法國國防部)\, ERC(歐盟研究中心) and DARPA etc. She had already been invited to give talks for ten more conferences\, published one book chapter and patented an USA patent on optical information storage system. She has been author or coauthors of over 100 papers. \n 
URL:https://www.fst.um.edu.mo/event/new-developments-in-lithium-niobate-nanophotonics/
LOCATION:E12-G003
CATEGORIES:pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20191129T110000
DTEND;TZID=Asia/Macau:20191129T120000
DTSTAMP:20260617T005202
CREATED:20191129T083001Z
LAST-MODIFIED:20191129T083001Z
UID:6459-1575025200-1575028800@www.fst.um.edu.mo
SUMMARY:Novel Mg-based Amorphous Alloys and Nanocomposites Induced from Amorphous Alloys for Hydrogen Storage
DESCRIPTION:Instructors/Speakers\nProf. Huai-Jun LIN\nAssociate Professor of Institute of Advanced Wear & Corrosion Resistance and Functional Materials\nJinan University\nChina \nAbstract\nMgH2 has been widely considered as a promising candidate for hydrogen storage because it stores 7.6 wt% of hydrogen\, however thermodynamics and kinetics for hydrogen absorption and desorption are not well satisfied. Abundant efforts have been devoted to prepare nanostructured Mg-based materials with enhanced hydrogen storage. Although kinetics improvements could be well achieved\, thermodynamics issues are remained in Mg-based hydrogen storage materials. \nWe attempted to prepare novel Mg-based amorphous alloys for hydrogen storage applications. The results could be summarized as follows: (1) A hydrogen-induced glass-to-glass transition in Mg-Ce-Ni amorphous alloys with a storage capacity of 5 wt%-H is reported. The hydrogen storage capacity of amorphous hydrides is obviously higher than that of their crystalline counterparts owing to the free volume and disordered atomic structure associated with glasses. (2) The dehydrogenation temperature of the amorphous hydrides can be efficiently tuned as it shows a close relationship with the enthalpy of mixing between the alloying element and hydrogen. (3) Further study on the five-component Mg60Ce10Ni20Cu5X5 (X = Co\, Zn) amorphous alloys shows that addition of Co greatly improves the hydrogenation kinetics and capacity\, indicating that geometry issue is not a key factor on influencing the hydrogenation properties of the studied Mg-based amorphous alloys. (4) Similarly\, minor alloying addition of Ag improves the hydrogen storage capacity and reduces the dehydrogenation temperature of the amorphous Mg65Cu25Y10 alloy. (5)\, High-pressure torsion (HPT) is applied to reduce the hydrogenation temperature and improve the hydrogenation kinetics of Mg-based amorphous alloy\, which is due to the introduction of nanoglasses regions and interfaces among them providing abundant pathways for fast hydrogenation. \nMoreover\, hydrogenation treatment of the Mg-based amorphous alloys at temperature above the crystallization temperatures will lead to the formation of hydrides nanocomposites consisting of MgH2\, Mg2NiH4 and so on. Hydrogen storage properties of the nanocomposites could be well tuned by designing the chemical compositions and phase structures\, by controlling the hydrogen activation treatments\, and by designing subsequent oxidation treatment upon the nano-hydrides composites etc. \nBiography\nProf. Huai-Jun Lin serves as associate professor in Jinan University\, Guangzhou\, China from 2017. During his PhD study\, he obtained a CSC scholar and studied as a visiting student in Kyushu University\, Japan from 2013 to 2014. After completing his Ph.D. degree in Materials Science and Engineering from South China University of Technology\, China in 2014\, he worked in Kyushu University as a Postdoctoral fellow from 2015 to 2016. His research interests include hydrogen storage materials\, functional applications of amorphous alloys and battery etc. \n 
URL:https://www.fst.um.edu.mo/event/novel-mg-based-amorphous-alloys-and-nanocomposites-induced-from-amorphous-alloys-for-hydrogen-storage/
LOCATION:E12-G003
CATEGORIES:pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20191129T110000
DTEND;TZID=Asia/Macau:20191129T120000
DTSTAMP:20260617T005202
CREATED:20191129T082019Z
LAST-MODIFIED:20191129T082019Z
UID:6455-1575025200-1575028800@www.fst.um.edu.mo
SUMMARY:Synthesis of Mg based Metal Hydrides for Hydrogen Storage
DESCRIPTION:Instructors/Speakers\nDr. Kohta ASANO\nSenior Researcher of Senior Researcher of Research Institute of Energy Frontier\nNational Institute of Advanced Industrial Science and Technology (AIST)\nJapan \nAbstract\nMetal hydrides have a number of properties that may be utilized to promote the use of hydrogen as an energy carrier. Those with a high hydrogen permeability can be applied as membranes for hydrogen separation\, while the optical changes occurring in metal thin films upon hydrogenation can be used for hydrogen sensing. Even better known is the fact that the high volumetric density of hydrogen makes metal hydrides an attractive option to store energy. The applicability of metal hydrides for storage applications depends on its affinity to hydrogen which determines the equilibrium pressure for (de-)hydrogenation. One of the most attractive hydride forming metals is Mg because of its light weight and low material costs. However\, the Mg-H system has thermodynamic and kinetic limitations associated with hydrogen absorption and desorption processes: the high stability of the MgH2 phase and the slow diffusion of hydrogen in Mg and MgH2 at moderate temperatures and pressures. \nA possible way to destabilize MgH2 and enhance the reaction kinetics is to reduce the size of Mg. It has been calculated that MgH2 is destabilized by decreasing the size on a nanometer scale. We have successfully synthesized nanometer-sized MgH2 clusters\, which form in a self-organized way by the hydrogenation of non-equilibrium Mg-TM (TM: Ti\, Mn\, Cr\, Fe etc.) alloys. Here MgH2 is destabilized by the interface energy between the two metal hydrides. Our results suggest that we can tune the thermodynamics and kinetics of hydrogen absorption and desorption in Mg-H. This concept paves the way for the development of lightweight and cheap Mg-based functional materials in the metal-hydrogen system. \nBiography\nDr. Kohta Asano\, (Ph.D. Eng.)\, now is a Senior Researcher\, Hydrogen Industrial Use and Storage Group\, Research Institute of Energy Frontier\, National Institute of Advanced Industrial Science and Technology (AIST) in Tsukuba. He got his B. Eng.\, M. Eng. and Ph.D. Eng. in Materials Science at Tohoku University in Sendai. He has studied metal hydrides for hydrogen storage applications at AIST from 2005. His main research topics are diffusion of hydrogen studied by solid state NMR and synthesis of novel Mg based alloys and hydrides. He has studied them also at Delft University of Technology in the Netherlands from 2013 to 2014. \n 
URL:https://www.fst.um.edu.mo/event/synthesis-of-mg-based-metal-hydrides-for-hydrogen-storage/
LOCATION:E12-G003
CATEGORIES:pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20191004T100000
DTEND;TZID=Asia/Macau:20191004T113000
DTSTAMP:20260617T005202
CREATED:20191004T083434Z
LAST-MODIFIED:20191004T083434Z
UID:6463-1570183200-1570188600@www.fst.um.edu.mo
SUMMARY:Mechanically durable water-repellent coatings for easy-cleaning\, anti-corrosion\, and anti-icing applications: connecting the dots
DESCRIPTION:Instructors/Speakers\nProf. Zhong CHEN\nSchool of Materials Engineering\nNanyang Technological University\nSingapore \nAbstract\nWater-repellent coatings have a number of engineering applications\, including easy-cleaning\, anti-corrosion\, and anti-icing. In this talk\, I will begin with the materials science fundamentals on water repellence\, and then explain how these fundamental principles are applied to the development of water-repellent and icephobic coatings. Specific examples will be given for coatings on composites and aluminum alloys\, two important classes of industrial materials. Practically useful coatings have to meet manifold requirements including mechanical durability\, low cost (non-reliance on expensive equipment and can be easily processed)\, scalability (large quantity for large area)\, and applicability to complex shapes\, etc. These requirements can be taken into consideration at the coating formulation stage. Future outlooks on water-repellent coatings will be shared. Prof. Chen will also take the chance to share a reflection on his personal research journey so far\, using the well quoted “connecting dots” by Steve Jobs. \nBiography\nProf. Chen obtained his PhD in 1997 at the University of Reading\, U.K. After completing the study\, he joined the newly established Institute of Materials Research and Engineering\, a national research institute funded by Singapore government. In March 2000\, he moved to Nanyang Technological University (NTU) as an Assistant Professor\, and has since been promoted to Associate Professor and Professor in the School of Materials Science and Engineering. Prof. Chen’s research interests include 1) Surface Engineering\, Thin Films & Nanostructured Materials\, and 2) Mechanical Behaviour of Materials. He is an author of over 350 peer-reviewed journal papers\, 5 book chapters and 5 granted patents. According to Google Scholar\, his journal articles have received over 13\,000 citations with the h-index of 58. Since joining NTU\, Prof. Chen has graduated 30 PhD and 5 MEng students. Prof. Chen has served as an editor / editorial board member for 8 academic journals. He has also served as a reviewer for more than 70 academic journals and a number of research funding agencies including the European Research Council. \n 
URL:https://www.fst.um.edu.mo/event/mechanically-durable-water-repellent-coatings-for-easy-cleaning-anti-corrosion-and-anti-icing-applications-connecting-the-dots/
LOCATION:E12-G004
CATEGORIES:pc_events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20190927T143000
DTEND;TZID=Asia/Macau:20190927T153000
DTSTAMP:20260617T005202
CREATED:20190927T063023Z
LAST-MODIFIED:20220927T040648Z
UID:5743-1569594600-1569598200@www.fst.um.edu.mo
SUMMARY:Electron-Lattice Interactions in Lead and Lead-Free Perovskite Single Crystals
DESCRIPTION:Instructors/Speakers\nProf. Bo WU\nProfessor\nSouth China Academy of Advanced Optoelectronics\nSouth China Normal University in Guangzhou\nChina \nAbstract\nRecently\, perovskite materials have gained widespread attentions due to their high potential in optoelectronic applications from solar cells\, light-emitting diodes\, lasers to photodetectors. For example\, the certificated power conversion efficiencies of perovskite solar cells have exceeded 25%\, on par with that of silicon. The external quantum efficiencies of perovskite green and red light emitting diodes have reached 20%\, a value approaching the best performed OLEDs. Despite the rapid progresses in improving the efficiencies\, there remain a lot of questions to be answered about the physical mechanisms lying behind the great successes. In this talk\, I will focus on the interactions between the electrons and the perovskite lattice\, which are complicated by the soft lead-halide bonds\, the hybrid nature of the lattice comprising of both organic and inorganic parts. The talk will be divided into two parts: (1) the thermal-driven dynamical Rashba splitting in lead perovskite single crystals and (2) the strong electron-phonon interactions in bismuth perovskite single crystals. In the first part\, through temperature-dependent photoluminescence\, Raman spectroscopy and molecular dynamical simulations\, we revealed that thermal driven lattice anharmonic polar motions result in dynamical Rashba splitting in lead halide perovskite single crystals\, which may lead to indirect tail states and prolong the carrier lifetimes. In the second part\, through photoluminescence and transient reflection techniques\, we show that a bismuth perovskite single crystal has a carrier mobility of only 0.05 cm2s-1V-1 and relative bright indirect emission\, which imply strong carrier localization effect by the electron-phonon coupling in the system. These findings provide significant insights on the underlying physical mechanisms of perovskites\, which may pave the way to further development of perovskite optoelectronic materials and their commercialization. \nBiography\nProfessor Wu Bo obtained his bachelor degree in Beijing Normal University in 2009 and Ph.D. degree in Nanyang Technological University in 2014. Now he is a professor in the South China Academy of Advanced Optoelectronics\, South China Normal University. His research interest is using spectroscopies and ultrafast spectroscopies to uncover the physical mechanisms of optoelectronic materials and devices\, e.g.\, perovskite solar cells and light emitting diodes\, organic solar cells\, etc. Till now\, he has published more than 40 papers in high-impact journals such as Nature Communications\, Advanced Materials\, Advanced Functional Materials\, ACS Nano etc. He has also published a book on plasmonic organic solar cells and a book chapter on perovskite single crystals in Springer and Wiley\, respectively. \n 
URL:https://www.fst.um.edu.mo/event/electron-lattice-interactions-in-lead-and-lead-free-perovskite-single-crystals/
LOCATION:E11-1028
CATEGORIES:event_list,pc_events,seminarslectures
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Macau:20190925T140000
DTEND;TZID=Asia/Macau:20190925T150000
DTSTAMP:20260617T005202
CREATED:20190925T060028Z
LAST-MODIFIED:20220927T040648Z
UID:5777-1569420000-1569423600@www.fst.um.edu.mo
SUMMARY:Luminescent Materials
DESCRIPTION:Instructors/Speakers\nProf. Elena V. USHAKOVA\nAssociate Professor\nDepartment of Materials Science and Engineering\nCity University of Hong Kong \nAbstract\nNanostructured hybrid materials nowadays are prospective for utilizing them as an active media in novel photovoltaic and optoelectronic devices\, such as solar cells and light-emitting diodes. An implementing of lead sulfide quantum dots (PbS QDs) and lead-based perovskite films and nanocrystals (NCs) for future photonic devices with a focus on their optical properties will be discussed. \nWhile designing the nanostructured complex materials one of the main points that should be concerned is the interaction of the material compounds which can result\, for instance\, in the desired increase of the charge transfer efficiency or in the uncontrollable quenching of luminophore emission. The enhancement of the optical properties\, such as absorbance and emission of nanoparticles\, is achieved by the fabrication of hybrid material with plasmonic nanoparticles. In particular\, I will discuss strong enhancement of near‐infrared emission of PbS QDs induced by Cu2−xSe semiconductor plasmonic NCs both embedded into nanoporous silicate matrix which comes from resonant interaction of QD optical transition dipole with the near field of plasmons of semiconductor plasmonic NCs. Photocurrent and fill‐factor enhancements in meso‐superstructured perovskite solar cells with resonant silicon NPs resulted in increased light absorption will be also discussed. Another important issue in implementing of the nanostructured materials is the stability of their morphology and optical responses while operating at ambient conditions. Here\, the optical properties of highly luminescent colloidal perovskite NCs (CsPbX3\, where X=Cl/Br\, Br\, I) embedded in porous glass or opal matrices will be discussed. The use of a nanoporous glass or opal matrices allow obtaining the samples with blue\, green\, and red perovskite NCs and their mixtures possessing reproducible optical characteristics that are almost similar to that of colloidal solution. Such matrices also prevent the fast degradation of nanocrystals both at the storage in ambient and under UV-light exposure/increasing of the humidity. \nBiography\nProf. Elena V. Ushakova is currently a Visiting Associate Professor at the Department of Materials Science and Engineering in City University of Hong Kong. She received her PhD in optics at ITMO University in 2013. After that\, she became an Assistant Professor and a Senior Researcher in Prof. Baranov’s group at ITMO University. She has received several personal grants and awards\, including the “St. Petersburg Government Grant for young scientists” and the “Grant of the Russian President for young scientists” (2017-2018). Her research interests are focused on the optical properties of colloidal semiconductor quantum dots\, metal nanoparticles\, perovskite nanocrystals\, carbon dots and self-assembled nanostructured materials with optical transitions in the visible and near infrared region. \n 
URL:https://www.fst.um.edu.mo/event/luminescent-materials/
LOCATION:E11-1028
CATEGORIES:event_list,pc_events,seminarslectures
END:VEVENT
END:VCALENDAR