Chih-Jen Shih

Tenure-Track Assistant Professor of Chemical Engineering ETH Zürich Phone: +41-44-633-42-40

Institute for Chemical and Bioengineering E-mail: [email protected] Vladimir-Perlog-Weg 1 Website: http://www.shihlab.ethz.ch/

ETH Hönggerberg, HCI E137 CH - 8093 Zurich, Switzerland

RESEARCH INTERESTS Chih-Jen Shih research group focuses on morphology, dynamics, molecular forces, and transport phenomena at nano- materials interfaces. His interest ranges from fundamental understanding of how dielectric screening of atomically thin nanomaterials influences the movement and interactions of charges, excitons, and molecules near interfaces, to applica- tion-motivated studies aimed at developing new engineering strategies to control over the interplay of these mechanisms, towards new technological opportunities in optoelectronics, sensors, and actuators. For example, in one class of prob- lems, Shih and his group members aim to control exciton orientation in the superstructures of colloidal quantum wells, which requires the localization of excitons and high degree of superlattice ordering. Fundamental aspects of these ideas rely on multiscale understanding of the dielectric screening and interwell coupling. The developed concepts and engi- neering strategies allow us to make high-quantum-efficiency phosphors and light emitting diodes. We endeavor to engi- neer the ensemble of the nanoscale interactions through understanding across multiple length and time scales, towards new functional nanomaterials systems beyond the reach of existing technologies.

ACADEMIC APPOINTMENTS 2015 - pres. Tenure-Track Assistant Professor, Institute for Chemical and Bioengineering, Department of Chemistry and Applied Biosciences, ETH Zürich 2014 - 2015 Postdoctoral Research Associate, Zhenan Bao Research Group, Department of Chemical Engineering, Stanford University 2010 - 2014 Graduate Research Fellow, Daniel Blankschtein and Michael Strano Research Groups, Department of Chemical Engineering, Massachusetts Institute of Technology (MIT)

EDUCATION 2014 Ph.D., Chemical Engineering, MIT 2004 M.S., Chemical Engineering, National Taiwan University 2002 B.S., Chemical Engineering, National Taiwan University

HONORS 2019 European Research Council (ERC) Starting Grant. 2018 Selected as “Best Paper Award” by International Display Workshops, Society for Information Display, Japan. 2017 Ružička Prize, ETH Zürich, Switzerland. 2017 Named as “Influential Researcher 2017” by Ind. Eng. Chem. Res., American Chemical Society, USA. 2017 Victor K. LaMer Award, Colloid & Surface Chemistry Division, American Chemical Society, USA. 2017 Named as “Emerging Investigator 2017” by J. Mater. Chem., Royal Society of Chemistry, UK. 2013 Outstanding Graduate Teaching Assistant Award, MIT, USA. 2011 Chyn Duog Shiah Memorial Fellowship, MIT, USA. 2009 David H. Koch Fellowship, MIT, USA.

PROFESSIONAL SERVICE 2017 - pres. Editorial Board Member, Scientific Reports, Nature Publishing Group, UK. 2017 - pres. Proposal Reviewer, Swiss National Science Foundation, Switzerland. 2019 Session Chair, Division of Colloidal and Surface Chemistry (COLL), ACS 257th Meeting, USA. 2017 Panel Reviewer, MaP Award 2017, ETH Zürich, Switzerland.

Curriculum Vitae 1 ETH Zürich Chih-Jen Shih

2017 Proposal Reviewer, American Chemical Society Petroleum Research Fund (ACSPFR), USA. 2017 Organizer, Raman Microscopy Workshop, ETH Hönggerberg, Switzerland. 2016 Poster Jury, MaP Graduate Symposium 2016, ETH Zürich, Switzerland. 2016 Panel Reviewer, The Branco Weiss Fellowship, Society in Science, ETH Zürich, Switzerland. 2014 Panel Reviewer, SBIR / STTR Grants, National Science Foundation, USA. 2012 - pres. Active reviewer for the following journals: ACS Appl. Mater. Interface, ACS Energy Lett., ACS Nano, ACS Photonics, Adv. Func. Mater., Adv. Mater., AICHE J., Angew. Chem., Appl. Phys. Lett., Chem. Commun., Chem. Mater., Inorg. Chem., J. Am. Chem. Soc., Langmuir, Nano Lett., Nat. Chem., Nat. Commun., Nat. Electron., Nat. Mater., J. Phys. Chem. B, J. Phys. Chem. C, J. Phys. Chem. Lett., Org. Electron., Sci. Adv., Sci. Robot., Sci. Rep, Small.

INSTITUTIONAL RESPONSIBILITY 2018 - 2019 Chairman of ICB Seminar Series, Institute for Chemical and Bioengineering, ETH Zurich.

OUTREACH 04 Sep. 2019 Informationstage für MaturandInnen. Represented ICB to deliver an introductory presentation to ~100 high school students about nanoscience and nanoengineering research in chemical engineering. 29 Mar. 2019 Tag der offenen Laboratorien. Represented ICB to deliver an introductory presentation to >100 high school students about nanoscience and nanoengineering research in chemical engineering. 23 Mar. 2018 Tag der offenen Laboratorien. Hosted ~40 high school students from Zürich for a day of exposure to quantum dot chemistry and its light-emitting diode device fabrication. 08 Apr. 2016 Tag der offenen Laboratorien: Hosted ~40 high school students from Zürich for a day of exposure to quantum dot chemistry and its light-emitting diode device fabrication.

TEACHING Institute for Chemical and Bioengineering, Department of Chemistry and Applied Biosciences, ETH Zürich 2016 Spring Instructor, Interface Engineering of Materials (529-0610-00L) Enrollment: Graduate 18 Teaching Evaluation (Overall Satisfaction): 4.9/5.0 2017 Spring Instructor, Interface Engineering of Materials (529-0610-00L) Enrollment: Graduate 22 Teaching Evaluation (Overall Satisfaction): 4.1/5.0 2018 Spring Instructor, Interface Engineering of Materials (529-0610-00L) Enrollment: Graduate 20 Teaching Evaluation (Overall Satisfaction): N/A 2019 Spring Instructor, Interface Engineering of Materials (529-0610-00L) Enrollment: Graduate 21 Teaching Evaluation (Overall Satisfaction): 4.1/5.0 2019 Fall Co-Instructor, Statistical and Numerical Methods for Chemical Engineers (401-0675-00L) 2020 Fall (tbd) Instructor, Mass Transfer (151-0917-00L) Department of Chemical Engineering, MIT 2012 Fall Teaching Assistant, Analysis of Transport Phenomena (10.50) Enrollment: Graduate 40 Teaching Evaluation: 6.7/7.0

GROUP MEMBERS & ALUMNI - Postdoctoral Researchers: Sudhir Kumar Ph.D., Materials Science, National Tsing Hua University, Taiwan (Oct. 2015 – ) Giuseppe Cantarella Ph.D., Electrical Engineering, ETH Zürich (Feb. 2019 – ) - PhD Students: Tian Tian M.S., Physical Chemistry, Tsing Hua Univ., China (Oct. 2015 – Mar. 2020) Jakub Jagielski M.S., Chemical Engineering, ETH Zürich (Mar. 2016 – Feb. 2020) Simon Solari M.S., Chemistry, ETH Zürich (Nov. 2018 – ) Léonard Bezinge M.S., Chemical Engineering, ETH Zürich (w/ Prof. Andrew deMello; Jan. 2019 – ) Tommaso Marcato M.S., Chemical Engineering, ETH Zürich (Mar. 2019 – ) Steve Kuo M.S., Chemistry, National Tsing Hua Univ., Taiwan (Oct. 2019 – ) - Master and Project Students:

Curriculum Vitae 2 ETH Zürich Chih-Jen Shih

Sonja Osbild Chemistry, ETH Zürich (2019 Summer) - Visiting Students and Research Fellows: Tzu-Pei Chen M.S., Materials Science, National Taiwan University, Taiwan (2019 Fall) - Master Students Conducting Research Abroad: - Alumni: Wen-Yueh Yu Postdoc (2015 – 2017); currently assistant professor of Chemical Eng. in Natl. Taiwan Univ. (link) Niklas Nüssle Chemical Engineering, ETH Zürich (2019 Spring) Wei-Hsu Hu Materials Science, ETH Zürich (2019 Spring) Gerrit Stemmler Master project, Chemical Engineering, ETH Zürich (2018 Spring) Franziska Naef Master project, Chemical Engineering, ETH Zürich (2018 Spring) Léo Sifringer Master project, Electrical Engineering, ETH Zürich (2018 Spring) Lucie Jordan Master thesis, Chemical Engineering, ETH Zürich (2017 Winter) Ruocheng Han Master project student, Chemistry, ETH Zürich (2017 Spring) Wan-Chi Lee Master thesis, Chemical Engineering, ETH Zürich (2017 Spring) Nikolaos Kallikounis Master thesis, Process Engineering, ETH Zürich (2017 Spring); ETH Medal of Master thesis (link) Anatol Ehrlich Master project, Process Engineering, ETH Zürich (2016 Spring) Jenny Florian Master thesis, Chemical Engineering, ETH Zürich (2016 Fall) Navanshu Ahuja Master project, Chemical Engineering, ETH Zürich (2016 Fall) Yidi Tai Master thesis conducted at MIT, USA (2017 Fall) Linda Meiser Master thesis conducted at Stanford University, USA (2017 Summer) Punit Mehra Master thesis conducted at MIT, USA (2017 Summer) Eric Peng Visiting engineer, Biogen Inc. (2019 Summer) Nikolas Kubo Visiting master student, Chemistry, RWTH Aachen University, Germany (2019 Summer) Raja Selvakumar Visiting undergraduate, Chemical Engineering, MIT, USA (2016 Summer) Hyojin Seung Visiting undergraduate, Chemical Engineering, Seoul National Univ., Korea (2016 Spring)

FULL PUBLICATION LIST (*as corresponding author) Citation summary (Google scholar 8/13/2019): Citations: 3366; h-index: 27; i10-index: 37. 1. “Monochromatic Light-Emitting Diodes Based on Perovskite Quantum Dots: Challenges and Opportunities” S. So- lari and C.J. Shih*, J. Soc. Inf. Display, published online, (pdf). 2. “Macroscopic Salt Rejection through Electrostatically Gated Porous Graphene” W. Roman, T. Tian, K. Yazda, H.G. Park and C.J. Shih*, Nano Lett. 19(9), 6400 (2019) (pdf). 3. “Layered Metal Vanadates with Different Interlayer Cations for High-Rate Na-Ion Storage” H. Huang, T. Tian, L. Pan, X. Chen, E. Tervoort, C.J. Shih, M. Niederberger, J. Mater. Chem. A, 7, 16109 (2019) (pdf). 4. “Flexible Green Perovskite Light Emitting Diodes” G. Cantarella, S. Kumar, C. Vogt, S. Knobelspies, A. Taka- bayashi, J. Jagielski, N. Münzenrieder, A. Daus, L. Petti, G.A. Salvatore, P. Lugli, C.J. Shih, G. Tröster, IEEE J. Electron Devi. 7(1), 769 (2019) (pdf). 5. “Efficient Perovskite Nanocrystal Light-Emitting Diodes Using Benzimidazole-Substituted Anthracene Derivative as the Electron Transport Material” S. Kumar, M. Tommaso, S.I. Vasylevskyi, J. Jagielski, K.M. Fromm, C.J. Shih*, J. Mater. Chem. C 7, 8938 (2019) (pdf). 6. “Molecular Orientation Effects in Organic Light-Emitting Diodes” T. Marcato and C.J. Shih*, Helv. Chim. Acta, 102(5), e1900048 (2019). (pdf). – special issue dedicated to Prof. François Diederich’s retirement. 7. “Increasing Layering Polydispersity Enabling Efficient and Stable Perovskite Nanocrystal Light-Emitting Diodes” S. Kumar, J. Jagielski, T. Tian, N. Kallikounis, W.C. Lee and C.J. Shih*, ACS Energy Lett. 4(1), 118 (2019). (pdf). 8. “An Elastic Interfacial Transistor Enabled by Superhydrophobicity” T. Tian, C.S. Sharma, N. Ahuja, M. Varga, R. Selvakumar, Y.T. Lee, Y.C. Chiu and C.J. Shih*, Small 14(51), 1804006 (2018). (pdf). 9. “Monolayer Graphene Coupled to a Flexible Plasmonic Nanograting for Ultra-Sensitive Strain Monitoring” R.F. Tiefenauer, T. Dalgaty, T. Keplinger, T. Tian, C.J. Shih, J. Vörös and M. Aramesh, Small 14(28), 1801187 (2018). (pdf).

Curriculum Vitae 3 ETH Zürich Chih-Jen Shih

10. “Exploration of Near-Infrared-Emissive Colloidal Multinary Lead Halide Perovskite Nanocrystals Using an Auto- mated Microfluidic Platform” I. Lignos, V. Morad, Y. Shynkarenko, C. Bernasconi, R. Maceiczyk, L. Protesescu, F. Bertolotti, S. Kumar, S.T. Ochsenbein, N. Masciocchi, A. Guagliardi, C.J. Shih, M.I. Bodnarchuk, A.J. deMello and M.V. Kovalenko, ACS Nano 12(6), 5504 (2018). (pdf). 11. “Ultrapure Green Light‐Emitting Diodes using Colloidal Quantum Wells of Hybrid Lead Halide Perovskites” S. Kumar, J. Jagielski and C.J. Shih*, SID Symp. Dig. Tech. 49(1), 214 (2018). (pdf). 12. “Conformal Deposition of Conductive Single-Crystalline Cobalt Silicide Layer on Si Wafer via a Molecular Ap- proach” T.H. Lin, T. Margossian, L.Q. Zheng, S. Kumar, I. Marozau, O. Sereda, D. Zemlyanov, C.J. Shih, R. Zenobi, D. Baudouin, G. De Micheli, P.-E. Gaillardon and C. Copéret, Chem. Mater. 30(6), 2168 (2018). (pdf). 13. “Spectroscopic Size and Thickness Metrics for Liquid-Exfoliated h-BN” A. Griffin, B. Cunningham, D. Scullion, T Tian, C.J. Shih, A. Harvey, J. Donegan, E.J.G. Santos, C. Backes and J.N. Coleman, Chem. Mater. 30(6), 1998 (2018). (pdf). 14. “Asymmetric Electric Field Screening in van der Waals Heterostructures” L.H. Lee, T. Tian, Q. Cai, C.J. Shih and E.J.G. Santos, Nature Commun. 9, 1271 (2018). (pdf).

15. “Colloidal CsPbX3 (X=Cl, Br, I) Nanocrystals 2.0: Zwitterionic Capping Ligands for Improved Durability and Sta- bility” F. Krieg, S.T. Ochsenbein, S. Yakunin, S. Brinck, P. Aellen, A. Süess, B. Clerc, D. Guggisberg, O. Nazarenko, Y. Shynkarenko, S. Kumar, C.J. Shih, I. Infante and M.V. Kovalenko, ACS Energy Lett. 3, 641 (2018). (pdf). 16. “Aggregation-Induced Emission in Lamellar Solids of Colloidal Perovskite Quantum Wells” J. Jagielski, S. Kumar, M. Wang, D. Scullion, R. Lawrence, Y.T. Lee, S. Yakunin, T. Tian, M. Kovalenko, Y.C. Chiu, E.J.G. Santos, S. Lin and C.J. Shih*, Science Adv. 3(12), eaaq0208 (2017). (pdf). 17. “Design and Synthesis of New Heteroleptic Iridium (III) Phosphors for Efficient, Solution-Processable Organic Light Emitting Devices” S. Kumar, K.R. Surati, R. Lawrence, A.C. Vamja, S. Yakunin, M. Kovalenko, E.J.G. Santos and C.J. Shih*, Inorg. Chem. 56(24), 15304 (2017). (pdf). 18. “Doping-Driven Wettability of Doped Two-Dimensional Materials: a Multiscale Theory” T. Tian, S. Lin, S. Li, L. Zhao, E.J.G. Santos and C.J. Shih*, Langmuir 33(44), 12827, (2017). (pdf). 19. “Molecular Epitaxy on Two-Dimensional Materials: the Interplay between Interactions” T. Tian and C.J. Shih*, Ind. Eng. Chem. Res. 56(38), 10552 (2017). (pdf). 20. “Ultrapure Green Light-Emitting Diodes Using Two-Dimensional Formamidinium Perovskites: Achieving Recom- mendation 2020 Color Coordinates” S. Kumar, J. Jagielski, N. Kallikounis, Y.H. Kim, C. Wolf, F. Jenny, T. Tian, C.J. Hofer, Y.C. Chiu, W.J. Stark, T.W. Lee and C.J. Shih*, Nano Lett. 17(9), 5277, (2017). (pdf). 21. “Understanding the Colloidal Dispersion Stability of 1D and 2D Materials: Perspectives from Molecular Simulations and Theoretical Modeling.” S. Lin, C.J. Shih, V. Sresht, A.G. Rajan, M.S. Strano and D. Blankschtein, Adv. Colloid Interface Sci. 244, 36, (2017). (pdf). 22. “Dismantling the “Red Wall” of Colloidal Perovskites: Highly Luminescent FA-Cs Lead Iodide Nanocrystals.” L. Protesescu, S. Yakunin, S. Kumar, J. Bar, F. Bertolotti, N. Masciocchi, A. Guagliardi, M. Grotevent, I. Shorubalko, C.J. Shih and M. Kovalenko, ACS Nano 11(3), 3119, (2017). (pdf). 23. “Layer-Controlled Two-Dimensional Perovskites: Synthesis and Optoelectronics” J. Jagielski, S. Kumar, W.Y. Yu and C.J. Shih*, J. Mater. Chem. C 5, 5610, (2017). (pdf). 24. “Low Temperature Wet Conformal Nickel Silicide Deposition on Silicon Wafer through an Organometallic Ap- proach.” T.H. Lin, T. Margossian, M. De Marchi, M. Thammasack, S. Kumar, J. Jagielski, L.Q. Zheng, C.J. Shih, R. Zenobi, G. De Micheli, D. Baudouin, P.-E. Gaillardon and C. Copéret, ACS Appl. Mater. Interfaces 9(5), 4948, (2017). (pdf). 25. “Efficient Blue Electroluminescence using Quantum-Confined Two-Dimensional Perovskites.” S. Kumar, J. Jagiel- ski, S. Yakunin, P. Rice, Y.C. Chiu, M. Wang, G. Nedelcu, Y. Kim, S. Lin, E.J.G. Santos, M. Kovalenko and C.J. Shih*, ACS Nano 10(10), 9720, (2016). (pdf). 26. “Engineering 2D Materials Surface Chemistry.” C.J. Shih*, Chimia 70(11), 800, (2016). (pdf).

Curriculum Vitae 4 ETH Zürich Chih-Jen Shih

27. “Multiscale Analysis for Field-Effect Penetration through Two-Dimensional Materials.” T. Tian, P. Rice, E.J.G. San- tos and C.J. Shih*, Nano Lett. 16(8), 5044, (2016). (pdf). Prior to ETH: 28. “Layered and Scrolled Nanocomposites with Aligned Semi-Infinite Graphene Inclusions at the Platelet Limit” P. Liu, Z. Jin, G. Katsukis, L.W. Drahushuk, S. Shimizu, C.J. Shih, E.D. Wetzel, J.K. Taggart-Scarff, B. Qing, K.V. Vliet, R. Li, B.L. Wardle and M.S. Strano, Science 353(6297), 364, (2016). (pdf). 29. “Erratum: Breakdown in the Wetting Transparency of Graphene [Phys. Rev. Lett. 109, 176101 (2012)].” C.J. Shih, Q.H. Wang, S. Lin, K.C. Park, Z. Jin, M.S. Strano and D. Blankschtein, Phys. Rev. Lett. 115(4), 049901, (2015) (pdf). 30. “Partially-Screened Field Effect and Selective Carrier Injection at Organic Semiconductor / Graphene Heterointer- face.” C.J. Shih, R. Pfattner, Y.C. Chiu, N, Liu, T. Lei, D. Kong, Y. Kim, W.G. Bae and Z. Bao, Nano Lett. 15(11), 7587, (2015). (pdf).

31. “Layer Number Dependence of MoS2 Photoconductivity using Photocurrent Spectral Atomic Force Microscopic Im- aging.” Y. Son, Q.H. Wang, J.A. Paulson, C.J. Shih, A.G. Rajan, K. Tvrdy, S. Kim, A. Bassam, R.D. Braatz and M. Strano, ACS Nano 9(3), 2843, (2015) (pdf). 32. “Modeling Surfactant-Assisted Stabilization of Carbon Nanotubes and Graphene in Ionic Surfactant Solutions: Coarse-Grained Molecular Dynamics Simulation-Assisted DLVO Theory.” C.J. Shih, S. Lin, M.S. Strano and D. Blankschtein, J. Phys. Chem. C 119(2), 1047, (2015) (pdf).

33. “Tuning On-Off Current Ratio and Mobility in a MoS2-Graphene Heterostructure via Schottky Barrier Modulation.” C.J. Shih, Q.H. Wang, Y. Son, Z. Jin, D. Blankschtein and M.S. Strano, ACS Nano 8(6), 5790, (2014) (pdf). 34. “Evolution of Physical and Electronic Structure in Chemically Functionalized Bilayer Graphene.” Q.H. Wang, C.J. Shih, G.L.C. Paulus and M.S. Strano, J. Am. Chem. Soc. 135(50), 18866, (2013) (pdf). 35. “Wetting Translucency of Graphene” C.J. Shih, M.S. Strano and D. Blankschtein, Nature Mater. 12(10), 866, (2013) (pdf). 36. “Charge Transfer at Junctions of a Single Layer of Graphene and a Metallic Single Walled Carbon Nanotube.” G.L.C. Paulus, Q.H. Wang, Z. Ulissi, T.P. McNicholas, A. Vijayaraghavan, C.J. Shih, Z. Jin, J. Kong and M.S. Strano, Small 9(11), 1954, (2013) (pdf). 37. “Disorder-Imposed Limits of Monolayer and Bilayer Graphene Electronic Modification Using Covalent Chemistry.” C.J. Shih, Q.H. Wang, Z. Jin, G.L.C. Paulus, D. Blankschtein and M.S. Strano, Nano Lett. 13(2), 809, (2013) (pdf). 38. “Metallized DNA nanolithography for encoding and transferring spatial information for graphene patterning.” Z. Jin, W. Sun, Y. Ke, C.J. Shih, G.L.C. Paulus, Q.H. Wang, B. Mu, P. Yin and M.S. Strano, Nature Commun. 4, 1663, (2013) (pdf). 39. “Breakdown in the Wetting Transparency of Graphene” C.J. Shih, Q.H. Wang, S. Lin, K.C. Park, Z. Jin, M.S. Strano and D. Blankschtein, Phys. Rev. Lett. 109(17), 176101, (2012) (pdf). 40. “Chemical reactivity imprint lithography on graphene: Controlling the substrate influence on electron transfer reac- tions.” Q.H. Wang, Z. Jin, K.K. Kim, A.J. Hilmer, G.L.C. Paulus, C.J. Shih, M.H. Ham, J.S. Yamagishi, K. Watanabi, J. Kong, P. Jarillo-Herrero and M.S. Strano, Nature Chem. 4, 724, (2012) (pdf). 41. “Understanding Surfactant/Graphene Interactions Using a Graphene Field Effect Transistor: Relating Molecular Structure to Hysteresis and Carrier Mobility.” C.J. Shih, G.L.C. Paulus, Q.H. Wang, Z. Jin, M.H. Ham, D. Blankschtein and M.S. Strano, Langmuir 28(22), 8579, (2012) (pdf). 42. “Understanding the pH-Dependent Behavior of Graphene Oxide Aqueous Solutions: A Comparative Experimental and Molecular Dynamics Simulation Study.” C.J. Shih, S. Lin, R. Sharma, M.S. Strano and D. Blankschtein, Lang- muir 28(1), 235, (2012) (pdf). 43. “Bi- and Tri- Layer Graphene Solutions.” C.J. Shih, A. Vijayaraghavan, R. Krishnan, R. Sharma, J.H. Han, M.H. Ham, Z. Jin, S. Lin, G. Paulus, Q.H. Wang, D. Blankschtein and M.S. Strano, Nature Nanotech. 6, 439, (2011) (pdf). 44. “Click Chemistry on Solution-Dispersed Graphene and Monolayer CVD Graphene.” Z. Jin, T.P. McNicholas, C.J. Shih, Q.H. Wang, G.L.C. Paulus, A. Hilmer and M.S. Strano, Chem. Mater. 23(14), 3362, (2011) (pdf).

Curriculum Vitae 5 ETH Zürich Chih-Jen Shih

45. “Molecular Insights into the Surface Morphology, Turbostratic Layering and Aggregation Kinetics of Surfactant- Stabilized Solution-Phase Graphene.” S. Lin, C.J. Shih, M.S. Strano and D. Blankschtein, J. Am. Chem. Soc. 133, 12810, (2011) (pdf). 46. “A Compositional Window of Kinetic Stability for Amphiphilic Polymers and Colloidal Nanorods.” E.S. Jeng, C.J. Shih, P.W. Barone, N. Jones, J.H. Baik, J.T. Abrahamson and M.S. Strano, J. Phys. Chem. C 115, 7164, (2011) (pdf). 47. “Understanding the Stabilization of Liquid-Phase-Exfoliated Graphene in Polar Solvents: Molecular Dynamics Simulations and Kinetic Theory of Colloid Aggregation.” C.J. Shih, S. Lin, M.S. Strano and D. Blankschtein, J. Am. Chem. Soc. 132, 14638, (2010) (pdf). 48. “Phase Field Modeling of Excimer Laser Crystallization of Thin Silicon Films on Amorphous Substrates.” C.J. Shih, M.H. Wang, C.H. Fang, M.H. Lee and C.W. Lan, J. Appl. Phys. 100, 053504, (2006) (pdf). 49. “Phase Field Modeling of Convective and Morphological Instability during Directional Solidification of An Alloy.” C.W. Lan, M.H. Lee, M.C. Chuang and C.J. Shih, J. Cryst. Growth 295, 202, (2006) (pdf). 50. “A Simple Approach Toward Quantitative Phase Field Simulation for Dilute Alloy Solidification.” C.J. Shih, M.H. Lee and C.W. Lan, J. Cryst. Growth 282, 515, (2005) (pdf). 51. “Quantitative Phase Field Simulation of Deep Cells in Directional Solidification of an Alloy.” C.W. Lan, C.J. Shih and M.H. Lee, Acta Mater. 53, 2285, (2005) (pdf). 52. “Morphological Transitions of Shallow Cells During Thin-film Solidification of an Alloy: Phase Field Modeling and Experimental Observation.” C.J. Shih, W.T. Hsu and C.W. Lan, J. Taiwan Inst. Chem. Eng. 36, 311, (2005) (pdf). 53. “Efficient Phase Field Simulation of a Binary Dendritic Growth in a Forced Flow.” C.W. Lan and C.J. Shih, Phys. Rev. E 69, 031601, (2004) (pdf). 54. “Long-time Scale Morphological Dynamics Near the Onset of Instability During Directional Solidification of an Al- loy.” C.W. Lan, C.J. Shih and W.T. Hsu, J. Cryst. Growth 264, 379, (2004) (pdf). 55. “Phase Field Simulation of Non-isothermal Free Dendritic Growth of a Binary Alloy in a Forced Flow.” C.W. Lan and C.J. Shih, J. Cryst. Growth 264, 472, (2004) (pdf). 56. “Adaptive Phase Field Simulation of Non-isothermal Free Dendritic Growth of a Binary Alloy.” C.W. Lan, Y.C. Chang and C.J. Shih, Acta Mater. 51, 1857, (2003) (pdf).

PATENTS 1. “ULTRA-PURE GREEN LIGHT EMITTING DIODES.” J. Jagielski, S. Kumar and C.J. Shih, European Patent Application EP17179375, PCT/EP2018/067248 (2017). 2. “SHIFT REGISTER APPARATUS AND METHOD THEREOF.” C.J. Shih, C.Y. Hsu, C.C. Kuo and C.K. Yuo, US Patent 7,764,761. 3. “HIGH-RELIABILITY GATE DRIVING CIRCUIT.” C.J. Shih, C.K. You and C.Y. Hsu, US Patent 8,269,712. 4. “DRIVING CIRCUIT AND RELATED DRIVING METHOD OF DISPLAY PANEL.” C.Y. Hsu, C.J. Shih, C.C. Kuo and C.H. Tsai, US Patent Pub. 20090085858. 5. “METHOD FOR FABRICATING THIN FILM TRANSISTORS.” C.J. Shih, M.C. Ho, W.C. Yeh and W.C. Yang, US Patent Pub. 20080254578. 6. “THIN FILM TRANSISTOR.” C.J. Shih, C.H. Fang, T.H. Teng and C.C. Lu, Taiwan (TW) Patent I268617; UK Patent GB2429580; US Patent Pub. 20070051956. 7. “METHOD OF FABRICATING A POLYSILICON LAYER AND A THIN FILM TRANSISTOR.” Y.P. Yang, T.H. Teng, C.J. Shih and C.C. Lu, TW Patent I293511; US Patent Pub. 20070155135.

INVITED LECTURES AND TALKS 1. “LEDs Based on Perovskite Quantum Dots: Opportunities and Challenges”

Curriculum Vitae 6 ETH Zürich Chih-Jen Shih

Optics & Photonics Taiwan 2019, Dec. 5 - Dec. 7, 2019, Taichung, Taiwan 2. “van der Waals Forces in Nanomaterials Systems” Department of Chemistry, Hokkaido University, Dec. 2, 2019, Sapporo, Japan. 3. “Horizontally Oriented Exciton Dipoles in Quantum Dot Solids” International Display Workshop (IDW) 2019, Nov. 27-29, 2019, Sapporo, Japan. 4. “Colloidal Quantum Wells: Self-Assembly and Physics” The American Chemical Society (ACS) 257th Annual Meeting, Mar. 31- Apr. 04, 2019, Orlando, USA 5. “LEDs Based on Perovskite Quantum Dots: Opportunities and Challenges” International Conference on Display Technology (ICDT) 2019, Mar. 26 - Mar. 29, 2019, Suzhou, China 6. “LEDs Based on Perovskite Quantum Dots: Opportunities and Challenges” International Display Workshop (IDW) 2018, Dec. 12-14, 2018, Nagoya, Japan. 7. “LEDs Based on Perovskite Quantum Dots: Opportunities and Challenges” Idemitsu Senshinken, Dec. 11, 2018, Chiba, Japan. 8. “Aggregation-Induced Emission in Lamellar Solids of Colloidal Perovskite Quantum Wells” King Abdullah University of Science and Technology, Nov. 6, 2018, Saudi Arabia. 9. “LEDs Based on Perovskite Quantum Dots: Opportunities and Challenges” Osram Science and Coffee Talk Series, Sep. 13, 2018, Regensburg, Germany. 10. “LEDs Based on Perovskite Quantum Dots: Opportunities and Challenges” The International Conference on Simulation of Organic Electronics and Photovoltaics (SimOEP’18) conference, Sep. 4-5, 2018, Winterthur, Switzerland. 11. “Aggregation-Induced Emission in Lamellar Solids of Colloidal Perovskite Quantum Wells” The Electrochemical Society (ECS) Annual Meeting 2018, May 13-17, 2018, Seattle, WA, USA. 12. “Field Effect Penetration Through 2D Materials” International Conference on Advanced Electromaterials (ICAE) 2017, Nov. 21-24, 2017, Jeju, Korea. 13. “Light Emitting Devices based on Colloidal Perovskite Quantum Wells” International Conference on Advanced Electromaterials (ICAE) 2017, Nov. 21-24, 2017, Jeju, Korea. 14. “Colloidal Perovskite Quantum Wells for High Color-Purity Light Sources” The Electrochemical Society (ECS) Annual Meeting 2017, Oct. 1-6, 2017, National Harbor, MD, USA. 15. Victor K. Lamer Award Plenary Talk “Engineering Molecular Interactions at Graphene Interfaces” ACS Colloid and Surface Chemistry Symposium, Jul. 9-12, 2017, New York City, NY, USA. 16. “How Transparent is Graphene?” School of Mathematics and Physics, Queen’s University Belfast, Feb. 24, 2016, Belfast, Northern Ireland. 17. “Raman Spectroscopy for Probing Surface Chemistry of Graphene” Competence Center for Materials and Processes, ETH Zürich, Feb. 3, 2016, Zürich, Switzerland. 18. “How Transparent is Graphene?” Chinese Association of Materials Science and Technology in Switzerland, Dec. 5, 2015, Zürich, Switzerland. 19. “Understanding and Engineering Molecular Interactions and Electronic Transport at 2D Materials Interfaces” Institute for Chemical and Bioengineering, ETH Zürich, Mar. 21, 2014, Zürich, Switzerland. 20. “Understanding and Engineering Molecular Interactions and Electronic Transport at 2D Materials Interfaces” Dept. of Chemical Engineering, University of Washington at Seattle, Feb. 10, 2014, Seattle, WA, USA. 21. “Understanding and Engineering Molecular Interactions and Electronic Transport at 2D Materials Interfaces” Dept. Chemical and Biological Engineering, Princeton University, Jan. 27-29, 2014, Princeton, NJ, USA. 22. “Understanding and Engineering Molecular Interactions and Electronic Transport at 2D Materials Interfaces” Dept. Chemical and Biomolecular Engineering, National University of Singapore, Jan. 8-10, 2014, Singapore.

Curriculum Vitae 7 ETH Zürich Chih-Jen Shih

CONTRIBUTED CONFERENCE PRESENTATIONS 23. “Unified Understanding of the Dielectric Nature of 2D materials via Electronic Polarizability” The American Chemical Society (ACS) Annual Meeting, Aug. 25-29, 2019, San Diego, USA 24. “Macroscopic Salt Rejection through Electrostatically Gated Nanoporous Graphene” The American Chemical Society (ACS) Annual Meeting, Aug. 25-29, 2019, San Diego, USA 25. “Elastic Interfacial Transistor Enabled by Superhydrophobic Self-Assembled Nanowires on Graphene” The American Chemical Society (ACS) Annual Meeting, Aug. 25-29, 2019, San Diego, USA 26. “Multiscale Analysis of the Doping-Driven Wettability of Two-Dimensional Materials” The American Chemical Society (ACS) Annual Meeting, Aug. 25-29, 2019, San Diego, USA 27. “Two-Dimensional Materials as High-Pass Filter of van der Waals Interactions” The American Chemical Society (ACS) Annual Meeting, Aug. 25-29, 2019, San Diego, USA 28. “Aggregation-Induced Emission in Lamellar Solids of Colloidal Perovskite Quantum Wells” The American Chemical Society (ACS) 256th Annual Meeting, Aug. 19-23, 2018, Boston, USA 29. “Towards Understanding and Engineering of The Asymmetric Electric Field Screening in van der Waals Heterostructures” The American Chemical Society (ACS) 256th Annual Meeting, Aug. 19-23, 2018, Boston, USA 30. “Field Effect Transparency of 2D Materials: A Multiscale Analysis” The American Chemical Society (ACS) 256th Annual Meeting, Aug. 19-23, 2018, Boston, USA 31. “High-Efficiency and Ultrapure-Green Light Emitting Diodes Using Colloidal 2D Perovskites” The International Society for Optics and Photonics (SPIE) Organic Photonics 2018, Aug. 19-23, 2018, San Diego, USA. 32. “Quantum-Confined Colloidal Perovskite Nanoplatelets for Extremely Pure Green and Efficient LEDs” The Optical Society of America (OSA) Advanced Photonics Congress 2018, Jul. 2-5, 2018, Zurich, Switzerland. 33. “Aggregation-Induced Emission in Lamellar Solids of Colloidal Perovskite Quantum Wells” MaP Graduate Symposium 2018, Jun. 26, 2018, Zürich, Switzerland. 34. “Aggregation-Induced Emission in Lamellar Solids of Colloidal Perovskite Quantum Wells” European Materials Research Society (E-MRS) Spring Meeting 2018, Jun. 18-22, 2018, Strasbourg, France. 35. “Ultrapure Green Light-Emitting Diodes using Colloidal Quantum Wells of Hybrid Lead Halide Perovskites” Society for Information Display (SID) Display Week 2018, May 22-24, 2018, Los Angeles, CA, USA. 36. “Color Pure Green and Blue Electroluminescence Using Colloidal Quantum Confined Perovskites” The Electrochemical Society (ECS) Annual Meeting 2018, May 13-17, 2018, Seattle, WA, USA. 37. “High-Efficiency, Ultra-Pure Green Perovskite Light Emitting Diodes Achieving Rec. 2020 Color Coordinates” EuroDispaly 2017, Oct. 31 - Nov. 2, 2017, Berlin, Germany. 38. “Colloidal Quantum Confined Perovskites for Ultrapure Green Optoelectronics: Synthesis and Applications” NanoGe September Meeting 2017, Sep. 4 - 8, 2017, Barcelona, Spain. 39. “Energy-Efficient, Color-Saturated Green Light Emitting Diodes Based on Quantum Confined Perovskites” Photonics Prague 2017, Aug. 28 - 30, 2017, Prague, Czech. 40. “Colloidal Quantum-Confined Perovskites for Ultrapure Green Optoelectronics: Synthesis and Applications” SCS Fall Meeting 2017, Aug. 21 - 22, 2017, Bern, Switzerland. 41. “Colloidal 2D Perovskites for Ultrapure Green Optoelectronics: Synthesis and Applications” MaP Graduate Symposium 2017, Jun. 22, 2017, Zürich, Switzerland. 42. “Layer-Controlled Colloidal Dispersions of 2D Organometal Halide Perovskites for Blue Light-Emitting Diodes” 2016 AICHE Annual Meeting, Nov. 13-18, 2016, San Francisco, CA, USA. 43. “Multiscale Analysis for Field-Effect Penetration through Two Dimensional Materials” 2016 AICHE Annual Meeting, Nov. 13-18, 2016, San Francisco, CA, USA. 44. “Efficient Light-Emitting Diodes Using Quantum-Confined 2D Organometal Halide Perovskite Sheets”

Curriculum Vitae 8 ETH Zürich Chih-Jen Shih

International Conference on Advances in Nanomaterials and Nanotechnology 2016, Nov. 4-5, 2016, New Delhi, India. 45. “Can Liquid Molecules See through Graphene?” 2013 MRS Fall Meeting, Dec. 1-6, 2013, Boston, MA, USA. 46. “Disorder Imposed Limits of Mono- and Bilayer Graphene ElectronicModification Using Covalent Chemistry.” 2013 MRS Fall Meeting, Dec. 1-6, 2013, Boston, MA, USA. 47. “Breakdown in the Wetting Transparency of Graphene.” 2013 AICHE Annual Meeting, Nov. 3-8, 2013, San Francisco, CA, USA. 48. “Disorder Imposed Limits of Mono- and Bilayer Graphene ElectronicModification Using Covalent Chemistry.” 2013 AICHE Annual Meeting, Nov. 3-8, 2013, San Francisco, CA, USA. 49. “Modeling Surfactant-Assisted Stabilization of Carbon Nanotubes and Graphene in Ionic Surfactant Aqueous Solu- tions: Coarse-Grained Molecular Dynamics Simulations and Modified DLVO Theory.” 2013 AICHE Annual Meeting, Nov. 3-8, 2013, San Francisco, CA, USA. 50. “Breakdown in the Wetting Transparency of Graphene.” 246th ACS National Meeting, Sep. 8-12, 2013, Indianapolis, IN, USA. 51. “Disorder Imposed Limits of Mono- and Bilayer Graphene ElectronicModification Using Covalent Chemistry.” 246th ACS National Meeting, Sep. 8-12, 2013, Indianapolis, IN, USA. 52. “Modeling Surfactant-Assisted Stabilization of Carbon Nanotubes and Graphene in Ionic Surfactant Aqueous Solu- tions: Coarse-Grained Molecular Dynamics Simulations and Modified DLVO Theory.” 246th ACS National Meeting, Sep. 8-12, 2013, Indianapolis, IN, USA. 53. “The Role of Surfactant Adsorbates on Hysteresis and Carrier Mobility in Graphene Transistors.” APS March Meeting 2012, Feb. 27 - Mar. 2, 2012, Boston, MA, USA. 54. “Bi- and Tri- Layer Graphene Solutions.” 2011 MRS Fall Meeting, Nov. 28 - Dec. 2, 2011. Boston, MA, USA. 55. “Understanding the Stabilization of Liquid-Phase-Exfoliated Graphene in Polar Solvents: Molecular Dynamics Simulations and Kinetic Theory of Colloid Aggregation.” 2011 AICHE Annual Meeting, Oct. 16-21, 2011, Minneapolis, MN, USA. 56. “Bi- and Tri- Layer Graphene Solutions.” 2011 AICHE Annual Meeting, Oct. 16-21, 2011, Minneapolis, MN, USA. 57. “Advanced Data Line Reduction Design for Low Cost Landscape TFT-LCDs.” 15th International Display Workshops, Dec. 3-5, 2008, Niigata, Japan. 58. “Advanced Design of a-Si Gate Driver and Data Line Demultiplexing for Low Cost and Low Power TFT-LCDs.” 2008 Society for Information Display Annual Meeting, May 18-23, 2008, Los Angeles, CA, USA. 59. “5” WQVGA a-Si TFT LCD with High Reliability Integrated Gate Driver”, 14th International Display Workshops, Dec. 5-7, 2007, Sapporo, Japan. 60. “Dual-Layer Gate Dielectrics Design for Reduction of Self-Heating Effect of LTPS Devices.” 13th International Display Workshops, Dec. 6-9, 2006, Otsu, Japan. 61. “Analysis of Microscopic Crystallization of SLS Process and Its Dependence on Performance of LTPS Devices.” 2006 Society for Information Display Annual Meeting, Jun. 4-9, 2006, San Francisco, CA, USA. 62. “Novel Sub-Intra Gate Poly-Si TFTs Structure for AMOLED Pixel Drivers.” 12th International Display Workshops, Dec. 6-9, 2005, Takamatsu, Japan.

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