2013 | A simple and efficient strategy for the sensitivity enhancement of DNA hybridization based on the coupling between propagating and localized surface plasmons | 김동하 | Article |
2019 | Arising synergetic and antagonistic effects in the design of Ni- and Ru-based water splitting electrocatalysts | 김동하; Filipe Marques Mota; 이지은 | Article |
2012 | Bimetallic multifunctional core@shell plasmonic nanoparticles for localized surface plasmon resonance based sensing and electrocatalysis | 김동하 | Article |
2017 | Composite hollow nanostructures composed of carbon-coated Ti3+ self-doped TiO2-reduced graphene oxide as an efficient electrocatalyst for oxygen reduction | 김동하; Filipe Marques Mota | Article |
2013 | Controll over the Au@Ag core-shell nanoparticle 2D patterns via diblock copolymer inverse micelle templates and investigation of the surface plasmon based optical property | 김동하 | Article |
2011 | Grafting poly(4-vinylpyridine) onto gold nanorods toward functional plasmonic core-shell nanostructures | 김동하 | Article |
2017 | Hierarchical Porous Carbonized Co3O4 Inverse Opals via Combined Block Copolymer and Colloid Templating as Bifunctional Electrocatalysts in Li–O2 Battery | 김동하 | Article |
2015 | In Situ Studies of Surface-Plasmon-Resonance-Coupling Sensor Mediated by Stimuli-Sensitive Polymer Linker | 김동하 | Article |
2019 | Plasmon-Enhanced Electrocatalytic Properties of Rationally Designed Hybrid Nanostructures at a Catalytic Interface | 김동하; Filipe Marques Mota | Article |
2016 | Reduced graphene oxide wrapped core-shell metal nanowires as promising flexible transparent conductive electrodes with enhanced stability | 김동하; 김경곤 | Article |
2015 | Systematic study on the sensitivity enhancement in graphene plasmonic sensors based on layer-by-layer self-assembled graphene oxide multilayers and their reduced analogues | 김동하; Adila Rani | Article |
2018 | Toward an Effective Control of the H2 to CO Ratio of Syngas through CO2 Electroreduction over Immobilized Gold Nanoparticles on Layered Titanate Nanosheets | 김동하; Filipe Marques Mota | Article |