Personal Details

This page is maintained by .

Dr. LIEW Laura-Lynn

Specialist II

Staff

Structural Materials (STR) Department

65011864

liewl@imre.a-star.edu.sg

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


Research Details


  • Defect characterization of low temperature solution grown ZnO
  • Synchrotron-based characterization, e.g. XAS
  • Solution synthesis of inorganic functional oxides (ZnO, TiO2, etc.)
  • Advanced material characterization (SEM, EDX, EBSD, XRD, EXAFS, XANES)


  • Hydrothermal synthesis and characterization of ZnO nanostructures and films
  • Defect characterization of low temperature solution grown ZnO
  • Understanding the interplay between microstructure, electrical and optical properties in solution grown ZnO films via synchrotron and neutron radiation
  • Low temperature growth of functional TiO2 films by liquid phase deposition
  • Smart multifunctional coatings for fenestrations to reduce thermal load of buildings
  • Wet chemical routes to electrochromic glass
  • Investigation on coating adhesion on contaminated CFRP surfaces by different treatments
  • Integrated Digital Twin Platform for Additive Manufacturing
  • Development of High Toughness Boron-Containing Marage 350 Steel for Additive Manufacturing

 

 

  • 2013 – current Specialist II, Institute of Materials Research and Engineering, Singapore
  • 2011 – 2013 Specialist I, Institute of Materials Research and Engineering, Singapore
  • 2008 – 2011 Research Officer, Institute of Materials Research and Engineering, Singapore
  • B. Eng. (Materials Engineering), Nanyang Technological University, Singapore, 2008

  • Ph.D. (Materials Engineering), Nanyang Technological University, Singapore, 2016

  • Best poster award - 5th Molecular Materials Meeting Singapore (August 2015)

  • Best poster award - 6th International Conference for Advanced Materials and Technology (ICMAT) Singapore (June 2011)



  • Handoko, A. D.; Liew, L.-L.; Lin, M.; Sankar, G.; Du, Y.; Su, H.; Dong, Z.; Goh, G. K. L., Elucidation of thermally induced internal porosity in zinc oxide nanorods. Nano Research 2018, 11 (5), 2412-2423.
  • Liew, L. L.; Sankar, G.; Handoko, A. D.; Goh, G. K. L.; Kohara, S. Understanding the Defect Structure of Solution Grown Zinc Oxide. Journal of Solid State Chemistry 2012, 189, 63-67. 
  • Liew, L. L.; Le, H. Q.; Goh, G. K. L. Microwave-Assisted Hydrothermally Grown Epitaxial ZnO Films on <111> MgAl2O4 Substrate. Journal of Solid State Chemistry 2012, 189, 90-95.
  • Liew Laura-Lynn; Le Hong Quang; Goh Gregory Kia Liang . Chemical solution epitaxy of ZnO nanorods. Materials Research Innovations 15[5], 357-360. 10-1-2011
  • Richardson, J. J.; Goh, G. K. L.; Le, H. Q.; Liew, L. L.; Lange, F. F.; DenBaars, S. P. Thermally Induced Pore Formation in Epitaxial ZnO Films Grown From Low Temperature Aqueous Solution. Crystal Growth & Design 2011, 11, 3558-3563.
  • Le, H. Q.; Goh, G. K. L.; Liew, L. L. Nanorod assisted lateral epitaxial overgrowth of ZnO films in water at 90° C, CrystEngComm 2014, 16, 69.
  • Yuefan Wei; Lin Ke; Leong Eunice S.P; Liu Hong; Liew Laura-Lynn; Teng Jing Hua; Du Hejun; Sun Xiao Wei Enhanced Photoelectrochemical Performance of Bridged ZnO Nanorod Arrays Grown on V-Grooved Structure. Nanotechnology 2012, 23, 365704.
  • Wang Ye.; Sun Xiao Wei; Zhao Jun Liang; Goh Gregory Kia Liang; Chen Lan Lan.; Liew, L. L.; Qiu Ji Jun; Hwang Yoon Hwae Comparison of the Hydrothermal and VPT Grown ZnO Nanowire Field Effect Transistors. Int. J. Nanosci. 2010, 09, 317-320.

  • Gregory K.L. Goh, Liew Laura-Lynn “Method for forming low emissivity doped zinc oxide films on a substrate”. US Patent Application No. 15/111,392, SG Patent Application No. 11201605730R


Last updated on : 02 Apr 2019 10:57 AM