Le, Q. T. N., & Hwang, I. (2023). Stabilization of hydrophobic organic compounds in sediment using alkali-activated rice husk biochar: Enhancement of sorption by dissolved organic matter. Chemical Engineering Journal, 476, 146513.
Song, M., Nguyen, Q. B., Kim, C., & Hwang, I. (2023). Sustained activation of persulfate by slow release of Fe (II) from silica-coated nanosized zero-valent iron for in situ chemical oxidation. Water Research, 246, 120715..
Quynh Thi Ngoc Le, Hyeon Ho Lee, Inseong Hwang, (2023), “Evaluation of the use of biochar to stabilize polycyclic aromatic hydrocarbons and phthalates in sediment”, Environmental Pollution, (Onlinc), 120644
Cheolyong Kim, Yu-Ping Chin, Heejong Son, Inseong Hwang, (2022), “Activation of persulfate by humic substances: Stoichiometry and changes in the optical properties of the humic substances”, Water Research, 212, 118107
Ardie Septian, Alam Venugopal Narendra Kumar, Annamalai Sivasankar, Jiyeon Choi, Inseong Hwang, Won Sik Shin, (2021), “Colloidal activated carbon as a highly efficient bifunctional catalyst for phenol degradation”, Journal of Hazardous Materials, 414, 125474
Jun-Young Ahn, Inseong Hwang, Namsik Park & Sung-Hyuk Park, (2021), “Laboratory and field study on changes in water quality and increase in dissolved iron during riverbank filtration”, Eviromental Science and Pollution Research, 28, 50142-50152
Ahn, J. Y., Kim, C., Jun, S. C., & Hwang, I. (2021). Field-scale investigation of nanoscale zero-valent iron (NZVI) injection parameters for enhanced delivery of NZVI particles to groundwater. Water Research, 202, 117402.
Soobin Cho, Cheolyoung Kim, Inseong Hwang, (2020), “Electrochemical degradation of ibuprofen using an activated-carbon-based continuous-flow three-dimensional electrode reactor (3DER)”, Chemosphere, 259, 127382
Kim, C., Ahn, J. Y., Kim, T. Y., & Hwang, I. (2020). Mechanisms of electro-assisted persulfate/nano-Fe0 oxidation process: Roles of redox mediation by dissolved Fe. Journal of hazardous materials, 388, 121739.
Cho, S., Kim, C., & Hwang, I. (2020). Electrochemical degradation of ibuprofen using an activated-carbon-based continuous-flow three-dimensional electrode reactor (3DER). Chemosphere, 259, 127382.
Kim, C., Thao, T. T., Kim, J. H., & Hwang, I. (2020). Effects of the formation of reactive chlorine species on oxidation process using persulfate and nano zero-valent iron. Chemosphere, 126266.
Kim, C., Ahn, J. Y., Kim, T. Y., & Hwang, I. (2019). Mechanisms of electro-assisted persulfate/nano-Fe0 oxidation process: Roles of redox mediation by dissolved Fe. Journal of Hazardous Materials, 121739.
Kim, T. Y., Ahn, J. Y., Kim, C., Choi, S. J., Ho, T. T., Moon, D. H., & Hwang, I. (2019). Carbonation/granulation of mine tailings using a MgO/ground-granule blast-furnace-slag binder. Journal of hazardous materials, 378, 120760.
Kim, C., Ahn, J. Y., Kim, T. Y., Shin, W. S., & Hwang, I. (2018). Activation of Persulfate by Nanosized Zero-valent Iron (NZVI): Mechanisms and Transformation Products of NZVI. Environmental Science & Technology, 52, 3625−3633.
Moon, D. H., Hwang, I., Koutsospyros, A., Cheong, K. H., Ok, Y. S., Ji, W. H., & Park, J. H. (2018). Stabilization of lead (Pb) and zinc (Zn) in contaminated rice paddy soil using starfish: A preliminary study. Chemosphere, 199, 459-467.
Kim, C., Chin, Y. P., Ahn, J. Y., Wei-Haas, M., McAdams, B., & Hwang, I. (2018). Reciprocal influences of dissolved organic matter and nanosized zero-valent iron in aqueous media. Chemosphere, 193, 936-942.
Phan, H. Q., Hwang, K. Y., Ahn, J. Y., Kim, T. Y., Kim, C., & Hwang, I. (2017). Investigation of the accelerated carbonation of a MgO-based binder used to treat contaminated sediment. Environmental Earth Sciences, 76(22), 771.
Moon, D. H., Hwang, I., Chang, Y. Y., Koutsospyros, A., Cheong, K. H., Ji, W. H., & Park, J. H. (2017). Quality improvement of acidic soils by biochar derived from renewable materials. Environmental Science and Pollution Research , 24(4), 4194-4199.
Ahn, J. Y., Kim, C., Kim, H. S., Hwang, K. Y., & Hwang, I. (2016). Effects of oxidants on in situ treatment of a DNAPL source by nanoscale zero-valent iron: A field study. Water Research , 107, 57-65.
Kim, C., Ahn, J. Y., Hwang, K. Y., Kim, H. S., Kwon, D. Y., & Hwang, I. (2015). Effects of groundwater solutes on colloidal stability of polymer-coated and bare nanosized zero-valent iron particles. Desalination and Water Treatment , 54(4-5), 1281-1289.
Hwang, K. Y., Ahn, J. Y., Kim, C., Seo, J. Y., & Hwang, I. (2015). Development of an MgO-based binder for stabilizing fine sediments and storing CO2. Environmental geochemistry and health , 37(6), 1063-1072.
Ahn, J. Y., Kang, S. H., Hwang, K. Y., Kim, H. S., Kim, J. G., Song, H., & Hwang, I. (2015). Evaluation of phosphate fertilizers and red mud in reducing plant availability of Cd, Pb, and Zn in mine tailings. Environmental Earth Sciences , 74(3), 2659-2668.
Kim, H. S., Hwang, I., & Kwon, D. (2015). Prediction of water quality in piping system of bank filtrate. Desalination and Water Treatment , 54(4-5), 1393-1400.
Kim, H. S., Ahn, J. Y., Kim, C., Lee, S., & Hwang, I. (2014). Effect of anions and humic acid on the performance of nanoscale zero-valent iron particles coated with polyacrylic acid. Chemosphere , 113, 93-100.
Hwang, K. Y., Seo, J. Y., Phan, H. Q., Ahn, J. Y., & Hwang, I. (2014). MgO‐Based Binder for Treating Contaminated Sediments: Characteristics of Metal Stabilization and Mineral Carbonation. CLEAN–Soil, Air, Water , 42(3), 355-363.
Moon, Y., Yim, U. H., Kim, H. S., Kim, Y. J., Shin, W. S., & Hwang, I. (2013). Toxicity and bioaccumulation of petroleum mixtures with Alkyl PAHs in earthworms. Human and Ecological Risk Assessment: An International Journal , 19(3), 819-835.
Bade, R., Oh, S., Shin, W. S., & Hwang, I. (2013). Human health risk assessment of soils contaminated with metal (loid) s by using DGT uptake: A case study of a former Korean metal refinery site. Human and Ecological Risk Assessment: An International Journal , 19(3), 767-777.
Kim, H. S., Kim, T., Ahn, J. Y., Hwang, K. Y., Park, J. Y., Lim, T. T., & Hwang, I. (2012). Aging characteristics and reactivity of two types of nanoscale zero-valent iron particles (Fe BH and Fe H2) in nitrate reduction. Chemical Engineering Journal , 197, 16-23.
Hwang, K. Y., Kim, H. S., & Hwang, I. (2011). Effect of resuspension on the release of heavy metals and water chemistry in anoxic and oxic sediments. CLEAN–Soil, Air, Water , 39(10), 908-915.
Narayana, S. L., Reddy, S. A. N., Subbarao, Y., Inseong, H., & Reddy, A. V. (2010). A simple and highly sensitive spectrophotometric determination of Cr (VI) in food samples by using 3, 4-dihydroxybenzaldehydeisonicotinoyl-hydrazone(3, 4-DHBINH). Food Chemistry , 121(4), 1269-1273.
Kim, H. S., Ahn, J. Y., Hwang, K. Y., Kim, I. K., & Hwang, I. (2010). Atmospherically stable nanoscale zero-valent iron particles formed under controlled air contact: characteristics and reactivity. Environmental science & technology , 44(5), 1760-1766.
Narayana, L., Somala, A. R., Bobbala, P., Inseong, H., & Ammireddy, V. R. (2009). Simultaneous Spectrophotometric Determination of Chromium (VI) and Vanadium (V) by using 3, 4-Dihydroxybenzaldehyde isonicotinoyl hydrazone (3, 4-DHBINH). Journal of Chemistry , 6(S1), S459-S465.
Kim, H. S., Kang, W. H., Kim, M., Park, J. Y., & Hwang, I. (2008). Comparison of hematite/Fe (II) systems with cement/Fe (II) systems in reductively dechlorinating trichloroethylene. Chemosphere , 73(5), 813-819.
Kim, I., Hong, S., Hwang, I., Kwon, D., Kwon, J., & Huang, C. P. (2007). TOC and THMFP reduction by ultrasonic irradiation in wastewater effluent. Desalination , 202(1), 9-15.
Lee, T., Byun, I., Kim, Y., Hwang, I., & Park, T. (2006). Monitoring biodegradation of diesel fuel in bioventing processes using in situ respiration rate. Water Science & Technology , 53(4-5), 263-272.
Kim, C., Park, T., Kim, S., Hwang, I., Oh, J., & Ko, J. (2006). ICA and water in Korea overview. Water Science & Technology , 53(4-5), 17-24.
Poo, K., Im, J., Jun, B., Kim, J., Hwang, I., Choi, K., & Kim, C. (2006). Full-cyclic control strategy of SBR for nitrogen removal in strong wastewater using common sensors. Water Science & Technology, 53(4-5), 151-160.
Ko, J., Lee, S., Kim, J., Kim, Y., Hwang, I., Lee, T., & Kim, C. (2006). Monitoring of pH inhibition on microbial activity in a continuous flow reactor by pseudo toxic concentration (CPT) concept and time delay model. Water Science & Technology, 53(4-5), 367-373.
Kim, S. H., Yoo, W. S., Oh, K. J., Hwang, I. S., & Oh, J. E. (2006). Transient analysis and leakage detection algorithm using GA and HS algorithm for a pipeline system. Journal of mechanical science and technology, 20(3), 426-434.
Park, J. Y., Kang, W. H., & Hwang, I. (2006). Hexavalent chromium uptake and release in cement pastes. Environmental engineering science, 23(1), 133-140.
Kang, W. H., Hwang, I., & Park, J. Y. (2006). Dechlorination of trichloroethylene by a steel converter slag amended with Fe (II). Chemosphere, 62(2), 285-293.
Byun, I. G., Nam, H. U., Song, S. K., Hwang, I. S., Lee, T. H., & Park, T. J. (2005). Monitoring of bioventing process for diesel-contaminated soil by dehydrogenase activity, microbial counts and the ratio ofn-alkane/isoprenoid. Korean Journal of Chemical Engineering, 22(6), 917-921.
Hwang, I., Park, H. J., Kang, W. H., & Park, J. Y. (2005). Reactivity of Fe (II)/cement systems in dechlorinating chlorinated ethylenes. Journal of hazardous materials, 118(1), 103-111.
Hwang, I., & Batchelor, B. (2002). Reductive dechlorination of chlorinated methanes in cement slurries containing Fe (II). Chemosphere, 48(10), 1019-1027.
Hwang, I., Batchelor, B., Schlautman, M. A., & Wang, R. (2002). Effects of ferrous iron and molecular oxygen on chromium (VI) redox kinetics in the presence of aquifer solids. Journal of hazardous materials, 92(2), 143-159.
Hwang, I., & Batchelor, B. (2001). Reductive dechlorination of tetrachloroethylene in soils by Fe (II)-based degradative solidification/stabilization. Environmental science & technology, 35(18), 3792-3797. Hwang, I., & Batchelor, B. (2000). Reductive dechlorination of tetrachloroethylene by Fe (II) in cement slurries. Environmental science & technology, 34(23), 5017-5022.