1 |
Comprehensive modeling of CO2 Huff-n-Puff in asphaltene-damaged shale reservoir with aqueous solubility and nano-confinement Lee JH, Jeong MS, Lee KS Journal of Industrial and Engineering Chemistry, 90, 232, 2020 |
2 |
Facile flame catalytic growth of carbon nanomaterials on the surface of carbon nanotubes Mo YT, Zhou H, Zhang B, Du XS, Lin ZD, Li W, Liu HY, Mai YW Applied Surface Science, 465, 23, 2019 |
3 |
Enhancement of the hydrogen release of Mg(BH4)(2) by concomitant effects of nano-confinement and catalysis Clemencon D, Davoisne C, Chotard JN, Janot R International Journal of Hydrogen Energy, 44(8), 4253, 2019 |
4 |
셀룰로오스/Halloysite Nanotube 복합 재료의 나노 구조발현에 따른 결정화도 및 열안정성 변화에 관한 연구 송영한, 김유정, 김형섭 Polymer(Korea), 43(6), 958, 2019 |
5 |
Adhesive forces between two cleaved calcite surfaces in NaCl solutions: The importance of ionic strength and normal loading Javadi S, Royne A Journal of Colloid and Interface Science, 532, 605, 2018 |
6 |
Significance of Polymeric Nanowire-Network Structures for Stable and Efficient Organic Solar Cells Ko JK, Song JY, Choi WT, Kim TH, Han YS, Lim JW, Lee CH, Char KH Macromolecular Research, 26(7), 623, 2018 |
7 |
Diffusion and hydration of oxygen confined in Fe(OH)(2) nano-cracks at high temperatures Kallikragas DT, Choudhry KI, Svishchev IM Journal of Supercritical Fluids, 120, 345, 2017 |
8 |
Nano-patterned polyelectrolyte multilayers assembled using block copolymer templates: The combined effect of ionic strength and nano-confinement Asor L, Nir S, Oded M, Reches M, Shenhar R Polymer, 126, 56, 2017 |
9 |
Low-temperature processing of polymer nanoparticles for bioactive composites Li X, Xu J, Wang D, Sha Y, Chen W, Zhou DS, Wang XL, Sun Q, Xue G, Li LL Journal of Polymer Science Part B: Polymer Physics, 54(24), 2514, 2016 |
10 |
Hypercrosslinked organic polymer based carbonaceous catalytic materials: Sulfonic acid functionality and nano-confinement effect Li J, Wang XC, Chen GJ, Li DF, Zhou Y, Yang XN, Wang J Applied Catalysis B: Environmental, 176, 718, 2015 |