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Session 1 : Novel materials for thermoelectrics and photovoltaics
Date: September 17 (14:00-17:00) Venue: Science College Building S601
Siti Utari Rahayu
Affiliation:
Department of Physics,
Faculty of Mathematics and Natural Sciences,
Universitas Sumatera Utara,
Medan,
ID
Title:
Engineering multinary quantum dots for quantum dot-sensitized solar cells via the SILAR approach
Te-Hsien Wang
Affiliation:
Institute of Nanoscience,
National Chun Hsing University,
TW
Title:
Bulk materials with low-dimensional electronic features: A new paradigm for thermoelectrics
Session 2 : Quantitative biosensing
Date: September 17 (14:00-17:00) Venue: Science College Building S104
Lazuardi Umar
Affiliation:
Department of Physics,
Math and Natural Sciences Faculty,
University of Riau, Pekanbaru,
ID
Title:
Biosensor based on living cell assessment for environment, food and medical application
Tsung-Han Liu
Affiliation:
Department of Physics,
National Chung Hsing University,
TW
Title:
Hyper-Raman spectroscopy detects changes in librational motions of water Induced by osmolytes
Session 3 : Novel physical properties of nanomaterials
Date: September 18 (09:30-12:10) Venue: Science College Building S601
Ananth Venkatesan
Affiliation:
Department of Physical Sciences, Indian Institute of Science education and research Mohali,
IN
Title:
Low temperature damping phenomena in palladium nanomechanical resonators
Cheng-Lung Chen
Affiliation:
Department of Physics,
National Chun Hsing University,
TW
Title:
Advancing thermoelectric and electrochemical energy materials – Challenges and our research approach
Session 4 : Quantum & photonics: from fundamentals to applications
Date: September 18 (09:30-12:10) Venue: Science College Building S104
Retna Apsari
Affiliation:
Depart. of Physics,
Faculty of Science and Technology Universitas Airlangga,
ID
Title:
Photonic materials, sensor and laser: From basic to applications in medical industries
Shin-Liang Chen
Affiliation:
Department of Physics,
National Chun Hsing University,
TW
Title:
Universal method for optimized robustness in self-testing of quantum resources
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