Charge Transfer-Induced Molecular Hole Doping into Thin Film of Metal-Organic Frameworks

Authors
Lee, Deok YeonKim, Eun-KyungShrestha, Nabeen K.Boukhvalov, Danil W.Lee, Joong KeeHan, Sung-Hwan
Issue Date
2015-08
Publisher
American Chemical Society
Citation
ACS Applied Materials & Interfaces, v.7, no.33, pp.18501 - 18507
Abstract
Despite the highly porous nature with significantly large surface area, metal organic frameworks (MOFs) can be hardly used in electronic and optoelectronic devices due to their extremely poor electrical conductivity. Therefore, the study of MOF thin films that require electron transport or conductivity in combination with the everlasting porosity is highly desirable. In the present work, thin films of Co-3(NDC)(3)DMF4 MOFs with improved electronic conductivity are synthesized using layer-by-layer and doctor blade coating techniques followed by iodine doping. The as-prepared and doped films are characterized using FE-SEM, EDX, UV/visible spectroscopy, XPS, current-voltage measurement, photoluminescence spectroscopy, cyclic voltammetry, and incident photon to current efficiency measurements. In addition, the electronic and semiconductor properties of the MOF films are characterized using Hall Effect measurement, which reveals that, in contrast to the insulator behavior of the as-prepared MOFs, the iodine doped MOFs behave as a p-type semiconductor. This is caused by. charge transfer-induced hole doping into the frameworks. The observed charge transfer-induced hole doping phenomenon is also confirmed by calculating the densities of states of the as-prepared and iodine doped MOFs based on density functional theory. Photoluminescence spectroscopy demonstrates an efficient interfacial charge transfer between TiO2 and iodine doped MOFs, which can be applied to harvest solar radiations.
Keywords
ELECTRICAL-CONDUCTIVITY; PROPERTY; CRYSTALS; IODINE; GROWTH; charge transfer complex; molecular hole doping thin film; MOFs; Hall Effect measurement
ISSN
1944-8244
URI
https://pubs.kist.re.kr/handle/201004/125147
DOI
10.1021/acsami.5b04771
Appears in Collections:
KIST Article > 2015
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