Andreas MANDELIS CV Index to Andreas Mandelis’ CV Entries Sections: I(a) Page 3: PERSONAL INFORMATION I(b) Pages 3 - 4: POSITIONS HELD II(a) Page 5: RESEARCH PUBLICATIONS IMPACT II(b). Pages 5 - 6: RESEARCH ACHIEVEMENT AND INVENTION HIGHLIGHTS III(a). Pages 7 – 33: SCIENTIFIC AND TECHNICAL PUBLICATIONS (In reverse chronological order) Research categories (page numbers) 1. Thermophysical and Thermodynamic Properties using Thermal-Wave Measurements (7 – 9) 2. Photovoltaic Solar Cell Diagnostic Techniques, Imaging and NDE (9 - 10) 3. Carrier-Density Diffusion-Waves in Semiconductors and Metrology using Carrier and Thermal Waves (10 – 15) 4. Photothermal Depth Profilometry and Inverse Problems (15 – 18) 5. Diffusion-Wave, Photoacoustic and Ultrasound Instrumentation, Analytical Methodologies for NDE, Sensing, Imaging and Spectroscopy (18 – 22) 6. Biosensors, Biothermophotonics and Biomedical Photoacoustics of Hard and Soft Tissues (22 – 28) 7. Diffusion-Wave Physics (28 – 29) 8. Hydrogen Gas and Environmental Sensors based on Thermal Waves and Thermophysics (29 – 30) 9. Nonlinear Diffusion-Wave Problems (30 - 31) 10. Specialty Applications of Photothermal Diagnostics and Thin Films (31 – 32) 11. Optical Property Measurements using Diffusion Waves. Optical and Optoelectronic Materials. Nonradiative Physics and Processes (32 – 34) III(b). Pages 34 - 35: MOST INFLUENTIAL PUBLICATIONS IV. Pages 36 – 50: PAPERS IN REFEREED CONFERENCE PROCEEDINGS (In chronological order) 1 Andreas MANDELIS CV V(a). Page 50: TECHNICAL POPULARIZED PUBLICATIONS V(b). Pages 50 - 53: ARTICLES IN POPULARIZED SCIENCE MAGAZINES, TV COVERAGE AND PAPERS WRITTEN ABOUT A. MANDELIS’ RESEARCH VI.1 Pages 53 - 67 (Invited, plenary and keynote) PRESENTATIONS VI.2 Pages 67 – 77 (Contributed) PRESENTATIONS (2003 - ) VII. Pages 77 – 80: BOOKS AND CHAPTERS IN BOOKS VIII. Pages 80 – 82: PATENTS IX(a) Pages 82 – 83: UNDERGRADUATE COURSES TAUGHT IN RECENT YEARS IX(b) Page 83: GRADUATE COURSES TAUGHT IN RECENT YEARS X. Pages 83 – 106: SUPERVISION OF HIGHLY QUALIFIED PERSONNEL X(a). Pages 83 – 94: Graduate Students, Post-Doctoral Fellows, Research Associates and Visiting Scientists X(b). Pages 94 – 106: B.A.Sc. Theses, Undergraduate, High-School, New Immigrant Scientists XI. Pages 106 – 111: RESEARCH SUPPORT XII. Pages 111 – 115: SCIENTIFIC AWARDS, SERVICE AND OTHER EVIDENCE OF IMPACT XIII(a). Pages 115 – 117: INDUSTRIAL AND HEALTH-SECTOR COLLABORATIONS AND TECHNOLOGY TRANSFERS XIII(b). Pages 117 – 118: ACADEMIC LOCAL, NATIONAL AND INTERNATIONAL COLLABORATIONS (PAST AND ONGOING) XIV. Pages 118 – 127: SCIENTIFIC AND PROFESSIONAL ACTIVITIES XV. Pages 128 – 130: SERVICE: UNIVERSITY, PROVINCIAL, FEDERAL (CANADA) AND INTERNATIONAL XVI. Page 130: INDUSTRIAL AND HEALTH SECTOR ENTREPRENEURIAL ACTIVITIES XVII. Pages 130 – 132: BIOGRAPHICAL INFORMATION 2 Andreas MANDELIS CV CURRICULUM VITAE of ANDREAS MANDELIS PhD, FRSC, FCAE, FAPS, FSPIE, FAAAS, FASME, LEL Canada Research Chair (Tier I) in Diffusion-Wave and Photoacoustic Sciences and Technologies [email protected] http://www.mie.utoronto.ca/cadift Tel/Fax: 416-978-5106 Direct on-line access to CV: https://cadipt.mie.utoronto.ca/personnel/mandelis-andreas/ I(a). PERSONAL INFORMATION 1. Date of Birth: June 22, 1952 Date: November 16, 2019 2. Rank: Full Professor of Mechanical, Industrial, Electrical and Computer Engineering, and Biomaterials and Biomedical Engineering 3. Education Degree Institution Department Thesis Field Year B.S. Yale University Physics High Energy Particle Scattering 1974 (Magna (Fullbright Scholar) cum Laude) M.A. Princeton University Mechanical & Aerospace 1976 Engineering (M.A.E.) M.S.E. Princeton University M.A.E. Applied Physics Thermal Decomposition of 1977 Electronically Metastable Materials (Solid State Science) Ph.D. Princeton University M.A.E. Applied Physics Applied Physics; Photoacoustic/ 1979 Photothermal Science 3 Andreas MANDELIS CV I(b). POSITIONS HELD Institution Department Position Year 1 Bell Northern Research, Ottawa Silicon Process R&D Member Scientific Staff 1980-81 2 University of Toronto Mechanical Engineering Assistant Professor 1982-86 3 University of Toronto Mechanical Engineering Associate Professor 1986-90 4 Eidg. Technische Hochschule Chemistry Invited Professor 1988-89 Lausanne, Switzerland (EPFL) 5 University of Toronto Mechanical and Industrial Full Professor 1990 - Engineering (MIE) 6 University of Toronto Electrical and Computer Professor (Cross-Appointment) 1990 - Engineering 7 University of Cyprus Natural Sciences Visiting Professor of Solid-State 1995-96 Physics 8 University of Toronto MIE Associate Chair, Graduate 2000-02 Studies 9 University of Toronto Center for Advanced Diffusion- Director 2003- Wave and Photoacoustic present Technologies (CADIPT) 10 Ruhr Universitaet Bochum Physics; A. von Humboldt Visiting 2003-04 Festkoerperspektroskopie III Professor Award 11 University of Toronto Institute of Biomaterials and Professor (Cross-Appointment) 2008- Biomedical Engineering 12 Cyprus Institute – Cyprus Professor (Status only) 2008 – 10 Research and Educational Foundation 13 Professional Engineers Ontario PEO Ltd Eng Licensee 2008- 14 Canada Research Chair (Tier 1) 2008-15 15 Helmholtz Zentrum München Institut für Biologische und A. Von Humboldt Re-invited 2012-13 (Technical Univ. Munich) Medizinische Bildgebung Visiting Professor Award (2nd invitation award) 16 University of Electronic Science School of Optoelectronic 1000 Talents Professor 2013 - 18 and Technology of China Information (UESTC), Chengdu, China 17 Canada Research Chair (Tier 1) 2015-22 18 Helmholtz Zentrum München Institut für Biologische und A. Von Humboldt Re-invited 2017-18 (Technical Univ. Munich) Medizinische Bildgebung Visiting Professor Award (3rd invitation award) 19 York University Mechanical Engineering Adjunct Professor, Graduate 07/01/2017 Program - 06/30/2021 4 Andreas MANDELIS CV II(a). RESEARCH PUBLICATIONS IMPACT Web of Science, Cited Reference Search (all databases): (Hirsch) h index = 96 (h-index is the largest number h such that h publications have at least h citations). Sum of Times Cited: 77,539 (61,199 without self citations) Citing Articles 53,434 (49,528 without self citations) (November 16, 2019) Cited Reference Search citation report for A. Mandelis on 11/16/2019 II(b). RESEARCH ACHIEVEMENT AND INVENTION HIGHLIGHTS Andreas Mandelis and his research team pioneered the following analytical instrumentation and measurement methodologies 1. Photopyroelectric Spectroscopy (PPES) and Detection and the physics of the photopyroelectric effect (1983): AIP PACS number 78.20.nc was assigned to “photopyroelectric effects” in 2007. 2. Frequency-modulated (FM) time-delay photothermal detection: the first photothermal-wave radar (1986). 3. Photocarrier Radiometry (PCR) of semiconductors (2003): AIP PACS number 78.56.Cd was assigned to “photocarrier radiometry” in 2009. 4. The Thermal-Wave Resonant Cavity sensor (with Jun Shen; 1996) 5. Common Mode Rejection Demodulation (CMRD) contrast amplification technique as a platform signal generation and processing methodology of optimal contrast dynamic range for solid-state defect imaging, fluid pollutant monitoring and non-destructive evaluation of industrial materials (2000) 5 Andreas MANDELIS CV 6. The photothermoacoustic radar or sonar for subsurface tissue imaging (with Ying Fan and Sergey Telenkov; 2006) 7. The physics of the thermal-wave inverse problem (“thermal harmonic oscillator”, 1985) and the first photothermal inverse problem imaging technique (thermal-wave tomography, 1997). 8. First photothermal radiometric rate-window application to optoelectronic materials (1993) 9. Deep-Level Photo-Thermal Spectroscopy (DL-PTS) of defects and impurities in semiconductors (with Jun Xia; 2007): AIP PACS number 79.10.Ca was assigned to “Deep-level photothermal spectroscopy” in 2009. 10. First application of thermal-wave inverse problems to industrial steel hardness depth profiles (1991) with applications to the aerospace, automotive, thermal-barrier coating, and steel heat treating industries. 11. First hybrid (chirp modulation) photothermal detection methods for subsurface defects in solids (1986) 12. First photothermal radiometry and modulated luminescence application to early caries detection in dental enamel (2000). It led to the creation of a Toronto spin-off company (Quantum Dental Technologies, (QDT), Inc.) and the CanaryTM early caries detection system. 13. First all-optical hydrogen sensor (1989). 14. Thermal-Wave Radar (TWR) and Thermal-Wave Radar Imaging (TWRI; with Nima Tabatabaei and Stephen Abrams; 2009 - 2011) 15. Thermal-Wave Coherence Tomography (Thermophotonic Chirp Scan and Binary Phase Code Imaging), (TCT; with Nima Tabatabei; 2011) 16. Lock-in carrierography (dynamic optoelectronic photoluminescence imaging) of semiconductors (with Alexander Melnikov; 2010 – 2012). 17. Wavelength-Modulated Differential Photothermal Radiometry (WM-DPTS) for blood glucose monitoring, a noninvasive thermophotonic method with the highest sensitivity to human glucose concentrations (hypoglycemic to hyperglycemic range) to-date (with Xinxin Guo; 2009 – 12). 18. Truncated-Correlation Photothermal Coherence Tomography (TC-PCT; with Sreekumar Kaiplavil; 2013). 19. Wavelength-Modulated Differential Photoacoustic Imaging (WM-DPAI) for quantitative cancer imaging (with S.S. Choi and B. Lashkari; 2013-16). 20. Single-Frequency Thermal-Wave Radar Imaging (SF-TWRI; with Alexander Melnikov and Konesh Sivagurunathan; 2017-18). 21. Enhanced Truncated-Correlation