(2008), Environmental, Physical and Structural Characterisation of Geopolymer Matrixes
synthesised from Coal (Co-)Combustion Fly Ashes, Journal of Hazardous Materials, 15(1-3),
175-183.
(2005), Geopolymeric Materials prepared using Class F Fly Ash and elevated Temperature
Curing, Cement and Concrete Research, 35, 1224-1232.
(2012), Engineering and Durability Properties of Concretes based on Alkali-activated
Granulated Blast Furnace Slag/Metakaolin Blends, Construction and Building Materials,
65, 51-59.
(2011), Effect of Type, Form, and Dosage of Activators on Strength of Alkali-activated
Natural Pozzolans, Cement and Concrete Composites, 33(2), 251-260.
(2014), Effect of Sodium Hydroxide Concentration on Chloride Penetration and Steel
Corrosion of Fly Ash-based Geopolymer Concrete under Marine Site, Construction and
Building Materials, 63(30), 303-310.
(2007), Geopolymer Technology: the Current State of the Art, Journal of Materials
Science, 42, 2917-2933.
(2012), Properties and Durability of Alkali-activated Slag Pastes immersed in SeaWater,
Ceramics International, 38, 3773-3780.
(2007), Durability of Alkali-activated Fly Ash Cementitious Materials, Journal of
Materials Science, 42(9), 3055-3065.
(2013), Influence of Fly Ash on the Water and Chloride Permeability ofAlkali-activated
Slag Mortars and Concretes, Construction and Building Materials, 48, 1187-1201.
(2014), Modification of Phase Evolution in Alkali-activated Blast Furnace Slag by
the Incorporation of Fly Ash, Cement and Concrete Composites, 45, 125-135.
(2015), Microstructure and Strength of Class F Fly Ash based Geopolymer containing
Sodium Sulfate as an Additive, Journal of the Korea Concrete Institute, 27(4), 443-450.
(2013), Modification of Cement-based Materials with Nanoparticles, Cement and Concrete
Composites, 36, 8-15.
(2014), Estimation on the Durability of Metakaolin Concrete according to the W/B
Ratio, Journal of the Korea Institute for Structural Maintenance and Inspection, 18(4),
84-91.
(2005), Study of the Effect of Mineral Admixtures on the Chloride Diffusion of the
Concrete immersed in Chloride Solution, Journal of the Korea Concrete Institute, 17(5),
679-686.
(2006), An Experimental Study on the Salt Resistance Properties with Concrete Materials
under Marine Environment(Exposure period: 5 years), Proceedings of the Korea Concrete
Institute, 18(1), 169-172.
(2007), Geopolymerisation of Low Calcium Ferronickel Slags, Journal of Materials
Scienc, 42(9), 3073-3082.
(2012), Standard Test Method for Acid-Soluble Chloride in Mortar and Concrete
(2012), Standard Test Method for Water-Soluble Chloride in Mortar and Concrete
(2013), Development of Maintenance Simulation System and Prediction of Chloride Ion
Permeation for Marine Concrete Structures, Journal of the Korea Concrete Institute,
17(1), 64-75.
(2010), Service Life Prediction of R.C. Structures considering Chloride Binding,
Journal of Korean Society of Hazard Mitigation, 10(1), 15-22.
(2010), Effect of Limestone Powder on Microstructure of Concrete, Journal of Wuhan
University of Technology-Materials Science, 25(2), 328-331.
(2004), Performance of Seawater-mixed Concrete in the Tidal Environment, Cement and
Concrete Research, 34, 593-601.
(2001), Evaluation on the Deterioration and Resistance of Cement Matrix due to Seawater
Attack, Journal of the Korea Concrete Institute, 13(2), 175-183.
(2011), Durability related Properties of Low Calcium Fly Ash based Geopolymer Concrete,
PhD Thesis
(2012), Properties of Fly Ash Geopolymer Concrete designed by Taguchi Method, Materials
and Design, 36, 191-198.
(2015), Properties of Nonsintered Cement Mortar using Alkali and Sulfate mixed Stimulants
according to Curing Method, Journal of the Korea Concrete Institute, 17(3), 236-243.
(2013), Electrically induced Chloride Ion Transport in Alkali Activated Slag Concretes
and the Influence of Microstructure, Cement and Concrete research, 47, 31-42.
(2011), Effect of Nano-CaCO3 on Hydration of Cement containing Supplementary Cementitious
Materials, Advances in Cement Research, 23(1), 33-43.
(2010), Seeding Effect of Nano-CaCO3 on the Hydration of Tricalcium Silicate, Journal
of the Transportation Research Board, 2141, 61-67.
(2014), Mechanical and Durability Properties of High Volume Fly Ash(HVFA) Concrete
containing Calcium Carbonate(CaCO3) Nanoparticles, Construction and Building Materials,
70, 309-321.
(2010), Effects of Seawater on AAR Expansion of Concrete, Cement and Concrete Research,
40, 563-568.
(2011), NaOH-activated Ground Fly Ash Geopolymer cured at Ambient Temperature, Fuel,
90(6), 2118-2124.
(2003), Chloride Ingress and Strength Loss in Concrete with different PC-PFA-MK Binder
Compositions exposed to synthetic Seawater, Cement and Concrete Research, 33, 353-362.
(2014), Quantification of Chloride Diffusion in Fly Ash-Slag-based Geopolymers by
X-ray Fluorescence (XRF), Construction and Building Materials, 69, 109-115.
(2006), Integrated Modeling of Chloride Binding Isotherm of Concrete based on Physical
and Chemical Mechanisms, Proceedings of the Korea Concrete Institute, 18(2), 537-540.
(2014), Durability of Alkaliactivated Fly Ash Concrete: Chloride Penetration in Pastes
and Mortars, Construction and Building Materials, 65, 51-59.