4단계 BK21 사업성과

4단계 BK21 사업성과

[김대우 교수 연구실] N-carbon-doped Binary Nanophase of Metal Oxide/Metal-Organic Framework for Extremely Sensitive and Selective Gas Response

  • 날짜 2024.07.22
  • 조회수 79

Abstract:  Metal–organic frameworks (MOFs), which are highly ordered structures exhibiting sub‐nanometer porosity, possess significant potential for diverse gas applications. However, their inherent insulative properties limit their utility in electrochemical gas sensing. This investigation successfully modifies the electrical conductivity of zeolitic imidazolte framework‐8 (ZIF‐8) employing a straightforward surface oxidation methodology. A ZIF‐8 polycrystalline layer is applied on a wafer‐scale oxide substrate and subjects to thermal annealing at 300 °C under ambient air conditions, resulting in nanoscale oxide layers while preserving the fundamental properties of the ZIF‐8. Subsequent exposure to NO2 instigates the evolution of an electrically interconnected structure with the formation of electron‐rich dopants derived from the decomposition of nitrogen‐rich organic linkers. The N‐carbon‐hybridized ZnO/ZIF‐8 device demonstrates remarkable sensitivity (≈130 ppm−1) and extreme selectivity in NO2 gas detection with a lower detection limit of 0.63 ppb under 150 °C operating temperature, surpassing the performance of existing sensing materials. The exceptional performances result from the Debye length scale dimensionality of ZnO and the high affinity of ZIF‐8 to NO2. The methodology for manipulating MOF conductivity through surface oxidation holds the potential to accelerate the development of MOF‐hybridized conductive channels for a variety of electrical applications.


논문정보:  Advanced materials, 36 (8), 2309041
Published:  February 22, 2024
DOI:  doi.org/10.1002/adma.202309041


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