| - | Carbon dioxide hydrogenation to form methanol via a reverse-water-gas shift reaction | Sang-Woo Park; Hyo-Eun Cho; Joo, Oh Shim; Yon-Soo Chung; HAN, SUNG HAN |
| - | Carbon dioxide hydrogenation to methanol to mitigate green-house effects | HAN, SUNG HAN |
| - | Carbon nanotube growing depends on reaction conditions | Chang Gun Kim; Joo, Oh Shim; Jung, Kwang Decg; HAN, SUNG HAN; Jae-Eui Yie |
| - | Degradation of humic acid & oxalic acid using catalytic ozonation | Ji eun Lee; Byung-suk Jin; Jung, Kwang Decg; Joo, Oh Shim; HAN, SUNG HAN |
| - | Effect of reverse-water-gas-shift reaction on methanol synthesis in CAMERE process | Sang-Woo Park; Joo, Oh Shim; Jung, Kwang Deog; HAN, SUNG HAN |
| - | Formation of a self-assembled monolayer of diaminododecane and a heteropolyacid monolayer on the ITO surface | HAN, SUNG HAN |
| - | Hydrogen storage using carbon nano material | Chang-Gun Kim; Joo, Oh Shim; HAN, SUNG HAN; Jae-Eui Yie |
| - | Kinetic study of the reverse water-gas shift reaction over Fe₂O₃/Cr₂O₃ catalysts | Sang-Woo Park; Joo, Oh Shim; HyoKim; Yon-Soo Chung; HAN, SUNG HAN |
| - | Kinetic study of the reverse water-gas shift reaction over ZnAl2O4 catalyst | Sang Woo Park; Joo, Oh Shim; Jung, Kwang Decg; Jeom In Baek; Jae Goo Shim; Hee Moon Eum; HAN, SUNG HAN; HyoKim |
| - | Preparation of carbon nano structures and their electronic properties | HAN, SUNG HAN |
| - | Preparation of multilayers of SAM and fullerene on ITO surface | HAN, SUNG HAN; OH SANG-YOON |
| - | Purification of carbon nanomaterial and hydrogen storage | Chang Gun Kim; Joo, Oh Shim; Jung, Kwang Decg; HAN, SUNG HAN; Jae Eui Yie |
| - | Rectified electron transfer across fullerene multilayers on ITO surface | HAN, SUNG HAN |
| - | Room temperature catalytic oxidation of wastewater by air (LOTECH) | Jung Kwang Decg; HAN, SUNG HAN |
