Papers
Key Journal Papers (50): |
(1). Z. C. Chen, N. R. Han, Z. Y. Pan, Y. D. Gong, T. C. Chong, and M. H. Hong, ¡°Tunable resonanceenhancement of multi-layer terahertz metamaterials fabricated by parallel laser micro-lens array lithography on flexible substrates¡±, OPTICAL MATERIALS EXPRESS 1, 151 (2011). |
(2). Rahmani M , Lukiyanchuk B, Ng B, Tavakkoli A, Liew YF, Hong MH, ¡± Generation of pronounced Fano resonances and tuning of subwavelength spatial light distribution in plasmonic pentamers¡±, OPTICS EXPRESS 19, 4949 (2011). |
(3). Li X, Yang LY, Hu CG, Luo XG, Hong MH, ¡°Tunable bandwidth of band-stop filter by metamaterial cell coupling in optical frequency¡±, OPTICS EXPRESS 19, 5283 (2011). |
(4). N. R. Han, Z. C. Chen, C. S. Lim, B. Ng and M. H. Hong, ¡°Broadband multi-layer terahertz metamaterials fabrication and characterization on flexible substrates¡±, OPTICS EXPRESS 19, 6990 (2011). (This paper was highlighted in NATURE PHOTONICS Vol. 5 (2011) page 251) . |
(5). Zengbo Wang , Wei Guo, Lin Li , Boris Luk¡¯ yanchuk, Ashfaq Khan , Zhu Liu , Zaichun Chen & Minghui Hong, ¡°Optical virtual imaging at 50 nm lateral resolution with a white-light nanoscope¡±, NATURE COMMUNICATIONS, March 1 2011. |
(6).Yun J, Wang R, Hong MH, Thong JTL, Foo YL, Thompson CV, Choi WK, ¡°Converting carbon nanofibers to carbon nanoneedles: catalyst splitting and reverse motion¡±, NANOSCALE 2, 2180 (2010). |
(7). Lim CS, Hong MH, Chen ZC, Han NR, Luk'yanchuk B, Chong TC, ¡°Hybrid metamaterial design and fabrication for terahertz resonance response enhancement¡±, OPTICS EXPRESS 18, 12421 (2010). |
(8). Chen ZC, Hong MH, Lim CS, Han NR, Shi LP, Chong TC, ¡°Parallel laser microfabrication of large-area asymmetric split ring resonator metamaterials and its structural tuning for terahertz resonance¡±, APPLIED PHYSICS LETTERS 96, 181101 (2010). |
(9). Dawood MK, Liew TH, Lianto P, Hong MH, Tripathy S, Thong JTL, Choi WK, ¡°Interference lithographically defined and catalytically etched, large-area silicon nanocones from nanowires¡±, NANOTECHNOLOGY, 21, 205305 (2010). |
(10). Yun J, Wang R, Choi WK, JTL Thong, CV Thompson, M Zhu., YL Foo, MH Hong, ¡°Field emission from a large area of vertically-aligned carbon nanofibers with nanoscale tips and controlled spatial geometry¡±, CARBON 48, 1362 (2010). |
(11). Wang F, Han Y, Lim CS, YH Lu, J Wang, J Xu, HY Chen, C Zhang, MH Hong, XG, Liu, ¡°Simultaneous phase and size control of upconversion nanocrystals through lanthanide doping¡±, NATURE, 463, 1061 (2010). |
(12). Chong TC, Hong MH, Shi LP, ¡°Laser precision engineering: from microfabrication to nanoprocessing¡±, LASER & PHOTONICS REVIEWS 4, 123 (2010). |
(13). LIU, C, MH Hong, H W Cheung, F Zhang, Z Q Huang, S L Tan and T S A Hor, ¡°Bimetallic structure fabricated by laser interference lithography for tuning Surface plasmon resonance¡±, OPTICS EXPRESS 16, 10701 (2008). |
(14). Margueritat, J,, J, Gonzalo, CN, Afonso, U, Hormann, G, Van Tendeloo, A, Mlayah, DB, Murray, L, Saviot, Y ZHOU, MH Hong and B. Lukyanchuk, "Surface enhanced Raman scattering of silver sensitized cobalt nanoparticles in metal-dielectric nanocomposites", NANOTECHNOLOGY 19, 375701 (2008). |
(15). Teo, Selin HG, AQ Liu, JB Zhang, MH Hong, J Singh, MB Yu and GQ Lo, "Photonicbandgap crystal resonator enhanced laser controlled modulations of optical interconnects for photonic integrated circuits", OPTICS EXPRESS 16 7842 (2008). |
(16). B. C. Lim, P. B. Phua, W. J. Lai, and M. H. Hong. ¡°Fast switchable electro-optic radial polarization retarder¡±, OPTICAL LETTERS 33, 950 (2008). |
(17).Choi, W K, TH Liew, HG Chew, F Zheng, CV Thompson, Y Wang, MH Hong, XD Wang, L LI and J Yun, "A combined top-down and bottom-up approach for precise placement of metal nanoparticles on silicon", SMALL 4, 330 (2008). |
(18). Choi WK, Liew TH, Dawood MK, Henry IS, Thompson CV, Hong MH, ¡°Synthesis of Silicon Nanowires and Nanofin Arrays Using Interference Lithography and Catalytic Etching¡±, NANO LETTERS 8, 3799 (2008). |
(19). K. S. Tiaw, S.H. Teoh, R. Chen and M.H. Hong, ¡°Processing Methods of Ultrathin Poly (-caprolactone) Films for Tissue Engineering Applications¡±, BIOMACROMOLECULES 8, 807 (2007). |
(20). Lin, Y., MH Hong, W. J. Wang, Z. B. Wang, G. X. Chen, Q. Xie, L S Tan and T C Chong, "Surface Nanostructuring by Femtosecond Laser Irradiation through Near-Field Scanning Optical Microscopy", SENSORS AND ACTUATORS A-PHYSICAL 133, 311 (2007). |
(21). P.B. Phua, W. J. Lai, K.S. Tiaw, B.C. Lim, H. H. Teo, Y. L. Lim, M.H. Hong ¡°Mimicking Optical Activity for Generating Radially Polarized Light¡±, OPTICS LETTER 32, 376 (2007). |
(22). Su, J. F., Huang, W. M., Hong, M. H., ¡°Indentation and two-way shape memory in a NiTi polycrystalline shape-memory alloy¡±, SMART MATERIALS & STRUCTURES 16, S137 (2007). |
(23).C.S. Lim, M.H Hong, Y. Lin, Q. Xie, B. Lukyanchuk, A.S.Kumar, M. Rahman, ¡°Microlens Arrays Fabrication by Laser Interference Lithography for Super Resolution Surface Nanopatterning¡±, APPLIED PHYSICS LETTERS 89, 191125 (2006). |
(24). Selin H. G. Teo, A. Q. Liu, J. B. Zhang, and M. H. Hong, ¡°Induced Free Carriers Modulation of Photonic Crystal Optical Intersection via Localized Optical Absorption Effect¡±, APPLIED PHYSICS LETTERS 89, 091910 (2006). |
(25). Y. Lin, M. H. Hong, C.S. Lim, G.X. Chen, L.S. Tan, Z. B. Wang, L.P.Shi, T. C. Chong, ¡°Ultrafast Laser Induced Parallel phase Change Nanolithography¡±, APPLIED PHYSICS LETTERS 89,041108 (2006). |
(26). Y. Zhou, M. H. Hong, JYH Fuh, L. Lu, B. S. Luk¡¯yanchuk, Z. B. Wang, L. P. Shi, and T. C. Chong, ¡°Direct femtosecond laser nanopatterning of glass substrate by particle- assisted near-field enhancement¡±, APPLIED PHYSICS LETTERS 88, (2006) 023110. |
(27). Q. He, W.M. Huang, X.Y. Gao and M.H. Hong, ¡°Numerical investigation of CO2 laser heating for annealing Ni/Ti multilayer thin films¡±, SMART MATERIALS & STRUCTURES 14, 1320 (2005). |
(28). j. D. Huang, N. Wu, Q. C. Zhang, C. X. Zhu, A. A. O. Tay, G. X. Chen, and M. H. Hong, "Germanium n(+)/p junction formation by laser thermal process," APPLIED PHYSICS LETTERS 87, 173507 (2005). |
(29). S. M. Huang, Z. Sun, B. S. Luk'yanchuk, M. H. Hong, and L. P. Shi, "Nanobump arrays fabricated by laser irradiation of polystyrene particle layers on silicon," APPLIED PHYSICS LETTERS 86, 161911 (2005). |
(30). Y. Lin, M. H. Hong, W. J. Wang, Y. Z. Law, and T. C. Chong, "Sub-30 nm lithography with near-field scanning optical microscope combined with femtosecond laser," APPLIED PHYSICS A 80, 461 (2005). |
(31). K. S. Tiaw, S. W. Goh, M. Hong, Z. Wang, B. Lan, and S. H. Teoh, "Laser surface modification of poly(epsilon-caprolactone) (PCL) membrane for tissue engineering applications," BIOMATERIALS 26, 763 (2005). |
(32). Z. B. Wang, M. H. Hong, B. S. Luk'yanchuk, Y. Lin, Q. F. Wang, and T. C. Chong, "Angle effect in laser nanopatterning with particle-mask," JOURNAL OF APPLIED PHYSICS 96, 6845 (2004). |
(33). G.X. Chen, M. H. Hong, T. S. Ong, M. Lam, W. Z. Chen, H. I. Elim, W. Ji, and T. C. Chong, "Carbon nanoparticles based nonlinear optical liquid," CARBON 42, 2735 (2004). |
(34). N. Bityurin, B. Luk¡¯yanchuk, M.H. Hong, T. Chong, ¡°Cross talk in photochemical three- dimensional optical recording¡±, OPTICS LETTERS 29, 2055 (2004). |
(35). Z. B. Wang, B. S. Luk'yanchuk, M. H. Hong, Y. Lin, and T. C. Chong, "Energy flow around a small particle investigated by classical Mie theory," PHYSICAL REVIEW B 70, 035418 (2004). |
(36). W. D. Song, M. H. Hong, B. Lukyanchuk, and T. C. Chong, "Laser-induced cavitation bubbles for cleaning of solid surfaces," JOURNAL OF APPLIED PHYSICS 95, 2952 (2004). |
(37). G. X. Chen, M. H. Hong, T. C. Chong, H. I. Elim, G. H. Ma, and W. Ji, "Preparation of carbon nanoparticles with strong optical limiting properties by laser ablation in water," JOURNAL OF APPLIED PHYSICS 95, 1455 (2004). |
(38). M. H. Hong, S. M. Huang, B. S. Luk'yanchuk, and T. C. Chong, "Laser assisted surface nanopatterning," SENSORS AND ACTUATORS A-PHYSICAL 108, 69 (2003). |
(39). S. M. Huang, M. H. Hong, B. S. Luk'yanchuk, and T. C. Chong, "Direct and subdiffraction-limit laser nanofabrication in silicon," APPLIED PHYSICS LETTERS 82, 4809 (2003). |
(40). Z.B. Wang, M. H. Hong, Y. F. Lu, D. J. Wu, B. Lan, and T. C. Chong, "Femtoseco nd laser ablation of polytetrafluoroethylene (Teflon) in ambient air," JOURNAL OF APPLIED PHYSICS 93, 6375 (2003). |
(41). Bityurin, B. S. Luk'yanchuk, M. H. Hong, and T. C. Chong, "Models for laser ablation of polymers," CHEMICAL REVIEWS 103, 519 (2003). |
(42). S.M. Huang, M. H. Hong, B. S. Luk'yanchuk, Y. W. Zheng, W. D. Song, Y. F. Lu, and T. C. Chong, "Pulsed laser-assisted surface structuring with optical near-field enhanced effects," JOURNAL OF APPLIED PHYSICS 92, 2495 (2002). |
(43). S. M. Huang, M. H. Hong, Y. F. Lu, B. S. Lukyanchuk, W. D. Song, and T. C. Chong, "Pulsed-laser assisted nanopatterning of metallic layers combined with atomic force microscopy," JOURNAL OF APPLIED PHYSICS 91, 3268 (2002). |
(44). S. M. Huang, Z. Sun, C. W. An, Y. F. Lu, and M. H. Hong, "Electron field emission from polymer films treated by a pulsed ultraviolet laser," JOURNAL OF APPLIED PHYSICS 90, 2601 (2001). |
(45). S. Zhu, Y.F. Lu and M.H. Hong, ¡°Laser ablation of solid substrate in a water-confined environment¡± APPLIED PHYSICS LETTERS 79, 1396 (2001). |
(46). S. Zhu, Y.F. Lu, M.H. Hong,¡±Laser ablation of solid substrates in water and ambient air¡±, JOURNAL OF APPLIED PHYSICS 89, 2400 (2001). |
(47). Y.F. Lu and M.H. Hong, ¡°Electric signal detection at the early stage of the laser ablation in the ambient air¡±, JOURNAL OF APPLIED PHYSICS 86, 2812 (1999). |
(48). Y.F. Lu, M.H. Hong and T.S. Low, ¡°Laser plasma interaction at early stage of laser ablation¡±, JOURNAL OF APPLIED PHYSICS 85, 2899 (1999). |
(49). Y.F. Lu, W.D. Song, M.H. Hong, T.C. Chong and T.S. Low, ¡°Laser removal of particles from magnetic head sliders¡±, JOURNAL OF APPLIED PHYSICS 80, 499 (1996). |
(50). Y.F. Lu, M.H. Hong, S.J. Chua, B.S. Teo, and T.S. Low, ¡°Audible Acoustic Wave Emission in Excimer Laser Interaction with Materials¡±, JOURNAL OF PPLIED PHYSICS 79, 2186 (1996). |