Tian-Zi Shen School of Instrumentation & Optoelectronic Engineering, Research interest: Advanced liquid crystal materials and Low-power display devices Major Enrollment: 080300: Optical Engineering (MS and Ph.D) 085400: Electrical & Electronic Engineering(MS and Ph.D) E-mail:shentianzi@buaa.edu.cn Research Experience 2020.01- Now of Instrumentation Optoelectronic Engineering, Beihang University Professor 2016.03-2019.12 School of Electronic & Electrical Engineering Sungkyunkwan University, (Korea) Assistant Professor Education Sep.2012–Mar.2016 Ph.D.in School of Electronic & Electrical Engineering Sungkyunkwan University, Korea Mar.2009–Sep.2012 M.S. in Department of Nano Science and Technology, SAIN Sungkyunkwan University, Korea Mar.2005–Mar.2009 B.S.in Information & Communication Engineering Kangwon National University, Korea. Honors and Awards 2021“Outstanding Supervisor of Summer Production Internship” Beihang University (July.2021) 2020 International Information Display Conference(SID)“Young Leader”(May. 2020) 2017 “Outstanding Research Award of the Year” National Research Foundation of Korea (NRF)(Nov.2017) 2015 “Outstanding Self-financed International Student Award” Ministry of Education of China (May.2015) 2008 “Best Foreign Graduate” Kangwon National University Research Funding 1.Research Fund of International Young Scientists “New liquid crystal materials and display technology” NRFC,(2022~2024) 2.BUAA-Young Researcher Support Program “The mechanisms of field induced Graphene oxide liquid crystals alignment” BUAA (2020~2023) 3.“Overseas Talent Research Support Program” National Research Foundation of Korea (NRF) (2016~2019) 4.“Graphene oxide and two-dimensional liquid crystal materials for display technology applications” Samsung Electronics Future Technology Institute, Korea (2014~2019) 5.“Graphene Photodetector”Samsung Electronics Technology Research Institute Korea, (2009~2012)
Publications1.T. Z. Shen, S. H. Hong, and J. K. Song *, "Electro-optical switching of graphene-oxide liquid crystals with an extremely large Kerr coefficient“, Nature Materials, 13 394-399 (2014) 2 .T. Z. Shen, S. H. Hong, J. H. Lee, S. G. Kang, B. Lee, D. Whang*, and J. K. Song*,"Selectivity of Threefold Symmetry in Epitaxial Alignment of Liquid Crystal Molecules on Macro scale Single-Crystal Graphene", Advanced Materials, 30(40), 1802441 (Oct, 2018) 3.T. Z. Shen, S. H. Hong, Bomi Lee, and J. K. Song* "Bottom-up & top-down manipulations for multi-order photonic crystallinity in a graphene-oxide colloid", NPG Asia Materials Nature (2016) 4.K. R. Wijewardhana#, T. Z. Shen#, E. N. Jayaweera, A. Shahzad, and J. K. Song*,"Hybrid nanogenerator and enhancement of water-solid contact electrification using triboelectric chargesupplier", Nano Energy, 52, 402-407, (Oct, 2018) 5.T.-Z. Shen, S.-H. Hong, and J. K. Song *, "Effect of centrifugal cleaning on the electro-optical response in the preparation of aqueous graphene-oxide dispersions",Carbon, 80, 560-564 (2014). 6.T. Z. Shen, S. H. Hong, J. K. Guo, and J. K. Song*,"Deterioration and recovery of electro-optical performance of aqueous graphene-oxide liquid-crystal cells after prolonged storage",Carbon, 105, 8-13 (2016) 7.S.-H. Hong#, T.-Z. Shen#, and J. K. Song *,"Electro-optical characteristics of aqueous graphene-oxide dispersion depending on ion concentration”, Journal of Physical Chemist ry C, 118(45), 26304-26312 (2014). 8.Priyadharshana,P.A.N.S., T. Z. Shen,, S. H. Hong, J.-K. Song, “Widely Tunable GRIN Lenses Using Negative Dielectrophoretic Manipulation of Phosphate Nanosheets Colloid.”, Adv. Optical Mater,10, 2102429(2022) 9.J. M. Choi, T. Z. Shen, J. K. Vij, J. H. Lee*, and J. K. Song*, “Thermochromic luminescence in dual-dye-doped liquid crystal mixture induced by varying the energy transfer rate”, Dyes and Pigments, 180, 108450 (Sep, 2020) 10.S. H. Hong, T. Z. Shen, and J. K. Song*, "Dual-field-induced biaxial nematic ordering of two-dimensional nanoparticles and enhancement of interparticle interactions", Physical Review E, 100(2), 020701 (Aug, 2019) 11.B. Wang, Y. B. Kang, T. Z. Shen, J. K. Song, H. S. Park, and J. H. Kim*,“Ultralight and compressible mussel-inspired dopamine conjugated poly(aspartic acid)/Fe3+-multifunctionalized graphene aerogel”, Journal of Materials Science, 53(24), 16484-16499, (Dec, 2018) 12.S. H. Hong, T. Z. Shen, and J. K. Song*, "Particle size dependence of electro-optical s witching in ZrP nano colloid" Liquid Crystals, (Jun, 2018) 13.A. R. Masud, S. H. Hong, T. Z. Shen, A. Shahzad, and J. K. Song*, "Electrically and electrohydrodynamically driven phase transition and structural color switching of oligomer tethered 2D colloid", RSC Advances, 8(30), 16549-16556, (May, 2018) 14.S. H. Hong, T. Z. Shen, and J. K. Song*, "Shear-induced assembly of graphene oxide particles into stripes near surface”, Liquid Crystals, 45(9), 1303-1311, (Feb, 2018) 15.A. R. Masud, S. H. Hong, T. Z. Shen, C. H. Ahn, and J. K. Song*, "Electrical switching of birefringence in zirconium phosphate colloids with various solvents", Optics Express, 26(1), 173-178, (Jan, 2018) 16.D. H. Song, S. H. Song, T. Z. Shen, J. S. Lee, W. H. Park, S. S. Kim*, and J. K. Song*, "Quantum dot light-emitting diodes using a graphene oxide/PEDOT:PSS bilayer as hole injection layer", RSC Advances, 7, 43396-43402, (Sep, 2017) 17.A. R. Masud, S. H. Hong, T. Z. Shen, C. H. Ahn, and J. K. Song*,"Electrical switching o f birefringence in zirconium phosphate colloids with various solvents", Optics Express, 26(1), 173-178, (Jan, 2018) 18.S. H. Hong, T. Z. Shen and J. K. Song*,"Shear-induced assembly of graphene oxide particles into stripes near surface", Liquid Crystals, (Feb, 2018) 19.K. R. Wijewardhana, T. Z. Shen, and J. K. Song*,"Energy harvesting using air bubbles on hydrophobic surfaces containing embedded charge", Applied Energy, 206, 432-438, (Sep, 2 017) 20.T. K. Ekanayaka, S. H. Hong, T. Z. Shen, and J. K. Song*,"Effect of solvents on photonic crystallinity in graphene oxide dispersions", Carbon, 123, 283-289, (Oct, 2017) Patents 1. T. Z Shen W. j Yoo H. M Li M. S Choi J. Y Choi "Two-dimensional material stacked flexible photosensor" US (United States of America) Patent 20140231886A1 2. J. Y Choi W. j Yoo C. H Ra T. Z SHEN “Graphene-based photodetector including complex transparent electrode, method of manufacturing the same, and device including the same” US (United States of America) Patent 20130126700A1 3. J. K Song T. Z SHEN “Optical element” US(United States of America) Patent 10830934A1 4.송장근 홍승호 심전자 그래핀 옥사이드 필름 제조방법(METHOD OF GRAPHENE OXIDE FILM) KR (Republic of Korea) Patent:1020150186068 5.송장근 심전자 홍승호 그래핀 옥사이드 정렬방법,그래핀옥사이드 이동방법및 그것을 이용한 광학 디바이스(Method of alignment of graphene oxide, Method of moving of graphene oxide and optical device using the same) KR (Republic of Korea) Patent:1020130118698 6.송장근 심전자 홍승호 광학 셀 제조방법(Reflective optical device fabrication using graphene oxide) KR(Republic of Korea) Patent:1020150186065) 7.송장근 홍승호 심전자 디스플레이 제어방법 및 그것을 이용한 광학 디바이스(Display control method and optical device using the same) KR (Republic of Korea) Patent:1020160019197 8.송장근 심전자 홍승호 그래핀옥사이드 정렬방법, 그래핀옥사이드이 동방법및그것을이용한광학디바이스(Method of alignment of graphene oxide, Method of moving of graphene oxide and optical device using the same) KR(Republic of Korea) Patent:1016141000000 9.심전자 유원종 이화민 최민섭 최재영 2차원 소재 적층 플렉서블 광센서(Two-Dimensional Material Stacked Flexible Photosensor) KR(Republic of Korea) Patent:1020130016972 10.최재영 유원종 라창호 심전자 복합 투명 전극을 포함하는 그래핀 기반 포토 디텍터와 그 제조방법 및 포토 디텍터를 포함하는장치 (Graphene based photodetector comprising complex transparent electrode, method of manufacturing the same and device comprising the same) KR(Republic of Korea) Patent:102011012172) |
