Personal Details

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Dr. PAN Zhenying

Scientist II

Staff

Advanced Optical Technologies (AOT) Department

6714 9048

Pan_Zhenying@imre.a-star.edu.sg

2 Fusionopolis Way, Innovis, #08-03, Singapore 138634


Research Details


  1.  Nano-fabrication

  2.  Dielectric nanoantennas

  3.  Nano-optics & photonics

  4.  On-chip lasers

  5.  Plasmonic materials

  1.  Plamonic nanostructure fabrication

  2.  Plasmonic nanoparticle lithography

  3.  Electron beam lithography

  4.  Laser micro /nano-processing

  5.  Materials synthesis and processing

  1.  Metamaterials Project :  THz metamaterials fabrication

  2.  Metamaterials & Nanoparticles Programs :  plasmonic nanoparticle lithography development

  3.  Pharos Projects :
       a.  Nanoantenna-based on-chip lasers fabrication
       b.  Dielectric nanoantennas fabrication for fluorescence enhancement
       c.  Tunable silicon-based nanoantennas fabrication for on chip photonic devices

  Nov 2010 - March 2011 :  Research Fellow at Data Storage Institute, A*STAR, Singapore

  April 2011 - March 2018 :  Scientist I at Data Storage Institute, A*STAR, Singapore

  April 2018 - May 2018 :  Scientist II at Data Storage Institute, A*STAR, Singapore

  June 2018 - to date :  Scientist II at Institute of Materials Research & Engineering, A*STAR, Singapore

  August 2007 - April 2011 :  Doctor of Philosophy (PhD), Nanyang Technological University

  1.  Best paper award in basic science, applied physics from DSI, A*STAR, 2014.

  2.  Recognition patent award from DSI, A*STAR, 2014.

  3.  Dean's award from NIE, NTU, 2009, 2010 and 2011.

  4.  Postgraduate research scholarship, NTU, 2007-2011.

 Since 2009, member of the institute of physics, Singapore

  • S. Shendre, S. Delikanli, M. Li, D. Dede, Z.Y. Pan, S. T. Ha, Y. H. Fu, P. L. Hernandez Martinez, J. Yu, O. Erdem, A. I. Kuznetsov, C. Dang, T. C. Sum and H. V. Demir, Ultrahigh-efficiency aqueous flat nanocrystals of CdSe/CdS@Cd1-xZnxS colloidal core/crown@alloyed-shell quantum wells. Nanoscale 11, 301–310 (2019).

  • L. Jin, Z. Dong, S. Mei, Y. F. Yu, Z. Wei, Z.Y. Pan, S. D. Rezaei, X. Li, A. I. Kuznetsov, Y. S. Kivshar, J. K. W. Yang, and C.-W. Qiu, Noninterleaved metasurface for (26‑1) spin- and wavelength-encoded holograms. Nano Letters 18, 8016–8024 (2018).

  •  S. T. Ha, Y. H. Fu, N. K. Emani, Z.Y. Pan, R. M. Bakker, R. Paniagua-Domínguez, and A. I. Kuznetsov, Directional lasing in resonant semiconductor nanoantenna arrays. Nature Nanotechnology 13,  1042–1047 (2018).

  • Z.Y. Pan, Y. F. Yu, V. Valuckas, G. G. Vienne, A. I. Kuznetsov, Plasmonic nanoparticle lithography: Fast resist-free laser technique for large-scale sub-50 nm hole array fabrication, Applied physics Letters 112 (22), 223101, (2018).

  • D. A. Kalashnikov, A. I. Kuznetsov, Z.Y. Pan and L. A. Krivitsky,  Quantum Spectroscopy of Nanostructure with Fano-type Plasmon Resonance, Physical Review X 4(1), 011049, (2014).

  • A. I. Kuznetsov,  A. E. Miroshnichenko,  Y. H. Fu, V. Viswanathan,  M. Rahmani,  V. Valuckas, Z.Y. Pan, Y. Kivshar, D. S. Pickard, and B. Luk’yanchuk, Split-ball resonator as a three-dimensional analogue of planar split-rings. Nature Communication, 5, 2104 (2014).

  • Z.Y. Pan, P. Zhang, Z.C. Chen, G. Vienne, M. H. Hong, Hybrid SRRs Design and Fabrication for Broadband Terahertz Metamaterials, IEEE Photonics Journal,1267-1272, 4 (2012)

  • W.F. Yang, Y.N. Xie, Z.Y. Pan, M.H Hong, Z.Y. Wu, L.M. Wong, S.J. Wang, C.F. Wang, Y. S. Lee, and H. Gong, Temperature dependence of exciton luminescence in surface plasmon mediated ZnCdO film by a highly ordered Au nanopattern, Europhysics Letters, 27003, 99 (2012)

  • X.Z. Xie, Z.Y. Pan, X. Wei, F.M. Huang, W. Hu and M.H. Hong, "Hybrid Micromachining of Transparent Sapphire Substrate by Pulsed Green Laser Irradiation", Journal of Laser Micro/Nanoengineering 6, 3 (2011)

  • Z. C. Chen, N. R. Han, Z. Y. Pan, Y. D. Gong, T. C. Chong, and M. H. Hong "Tunable resonance enhancement of multi-layer terahertz metamaterials fabricated by parallel laser micro-lens array lithography on flexible substrates", Optics Express, 1( 2), 151 (2011)

  • M. Tang, V. Shi, Z. Y. Pan, Y. S. Choo and M. H. Hong, ‘Laser Ablation of Metal Substrates for Super-hydrophobic Effect’, Journal of Laser Micro/Nanoengineering , 6,1, (2011)

  • M.V. Roshan, P. Lee, Z.Y. Pan, R.Verma, R.S. Rawat and S.V. Springham, ‘Correlation Analysis of Intense and High-Energy Deuteron Beam, Pinch Images, and Neutron Yield’, IEEE Transaction on Plasma Science, 38 2434–2438, (2010).

  • E. Ghareshabani, R.S, Rawat, S. Sobhanian, R. Verma, S. Karamat, Z. Y. Pan, ‘Synthesis of nanostructured multiphase Ti(C,N)/a-C films by a plasma focus device’, Nuclear Inst. And Methods in Physics Research B, 268, 2777-2784, (2010).

  • Z.Y. Pan, R.S. Rawat, J.J. Lin, S. Mahmood, R.V. Ramanujan, P. Lee, S.V. Springham, T.L.Tan, ‘Oriented Growth of CoPt Nanoparticles by Pulsed Laser Deposition’,  Applied Physics A: Materials Science & Processing, 101, 609-613, (2010).

  • Z.Y. Pan, R.S. Rawat, R. Verma, J.J. Lin, H. Yan, R.V. Ramanujan, P. Lee, S.V. Springham,T.L. Tan, ‘Miniature plasma focus as a novel device for synthesis of soft magnetic FeCo thin films’, Physics Letter A, 374, 1043-1048, (2010).

  • Z.Y. Pan, R.S. Rawat, M.V. Roshan, J.J. Lin, R.Verma, P. Lee, S.V. Springham, T.L.Tan, ‘Nanostructured Magnetic CoPt Thin Films Synthesis using Dense Plasma Focus Device Operating at Sub-Kilojoule Range’, Journal Physics D: Applied Physics. 42, 175001, (2009).

  • Z.Y. Pan, R.S. Rawat, J.J. Lin, T. Zhang, P. Lee, T.L. Tan and S.V. Springham, ‘Nanostructuring of FePt thin films by plasma focus device: Pulsed ion irradiation dependent phase transition and magnetic properties’, Applied Physics A: Materials Science & Processing, 96, 1027–1033, (2009).

  • Z.Y. Pan, R.S. Rawat, J.J. Lin, R. Verma, M.V. Roshan, P. Lee, S.V. Springham and T.L. Tan, ‘Magnetic CoPt Nanoparticles Deposition using Plasma Focus Device’, Journal of Plasma and Fusion Research Series, 8, 0504-0507, (2009).

  • Z.Y. Pan, J.J. Lin, T. Zhang, S. Karamat, T.L. Tan, P. Lee, S.V. Springham, R.V. Ramanujan and R.S. Rawat, ‘Lowering of L10 phase transition temperature of FePt thin films by single shot H+ ion exposure using plasma focus device’, Thin Solid Films, 517(8), 2753-2757, (2009).

  • S. Karamat, S. Mahmood, J. J. Lin, Z.Y. Pan, P. Lee, T.L. Tan, S.V. Springham, R. Ramanujan, and R.S. Rawat, Structural, ‘optical and magnetic properties of (ZnO)1-x(MnO2)x thin films deposited at room temperature’,  Applied Surface Science 254, 7285–7289, (2008).

  • J.J. Lin, M.V. Roshan, Z.Y. Pan, R. Verma, P. Lee, S.V. Springham, T.L. Tan, and R.S. Rawat, ‘FePt nanoparticle formation with lower phase transition temperature by single shot plasma focus ion irradiation’,  Journal of Physics D: Applied Physics, 41, 135213, (2008).

  • J.J. Lin, Z.Y. Pan, S. Karamat, S. Mahmood, P. Lee, T.L. Tan, S.V. Springham, and R.S. Rawat, ‘FePt:Al2O3 nanocomposite thin films synthesized by magnetic trapping assisted pulsed laser deposition with reduced intergranular exchange coupling’, Journal of Physics D: Applied Physics 41, 095001, (2008).

 

 Arseniy Kuznetsov, Zhenying Pan, “Photolithography Methods”, International Application No :
 PCT/SG2015/050482 filed on 2nd Dec. 2015, Pubication No : WO/2016/089308, published on 1st Sep. 2016.

Last updated on : 17 Jul 2019 03:31 PM