|1.||Jeon, Jong-Ki: 2 articles (11/2014 - 07/2012)|
|2.||Park, Young-Kwon: 2 articles (11/2014 - 07/2012)|
|3.||Jin, Mingshi: 1 article (11/2014)|
|4.||Lee, Eunok: 1 article (11/2014)|
|5.||Choi, Hyeonhee: 1 article (11/2014)|
|6.||Kim, Ji Man: 1 article (11/2014)|
|7.||Yang, Hong: 1 article (01/2014)|
|8.||Shi, Xiangyang: 1 article (01/2014)|
|9.||Sun, Yanan: 1 article (01/2014)|
|10.||Yang, Shiping: 1 article (01/2014)|
|1.||AIDS-Related Complex (ARC)
08/01/2010 - "In the present study, tungsten oxide nanomaterials were synthesized by a modified plasma arc gas condensation technique. "
08/19/2011 - "In this paper, we present a systematic investigation demonstrating that arc discharge is a fast and inexpensive synthesis method which can be used to produce high quality tungsten oxide nanostructures for NO(2) gas sensing measurements. "
08/19/2011 - "Size-controlled synthesis and gas sensing application of tungsten oxide nanostructures produced by arc discharge."
08/01/2010 - "The effect of processing parameters on the synthesis of tungsten oxide nanomaterials by a modified plasma arc gas condensation technique."
05/14/2008 - "In this paper, we discuss the synthesis and characterization of tungsten trioxide nanoparticles prepared by the arc discharge method in deionized (DI) water. "
01/01/2014 - "We report here a facile thermal decomposition approach to creating tungsten oxide nanorods (WO2.9 NRs) with a length of 13.1 ± 3.6 nm and a diameter of 4.4 ± 1.5 nm for tumor theranostic applications. "
01/01/2014 - "Tungsten oxide nanorods: an efficient nanoplatform for tumor CT imaging and photothermal therapy."
01/01/2012 - "The tumor-initiating and -promoting potentials of four rare metals, indium oxide (In2O3), dysprosium oxide (Dy2O3), tungsten oxide (WO3) and molybdenum (Mo), with a well-defined particle diameter were evaluated. "
|3.||Dehydration (Water Stress)
11/01/2014 - "Catalytic properties of highly ordered crystalline nanoporous tungsten oxide in butanol dehydration."
07/01/2012 - "The WO3/MCM-41 catalyst with 27.0 wt% tungsten oxide loading showed the highest activity in the dehydration of 2-butanol, which was attributed to the highest overall number of acid sites among the WO3/MCM-41 catalysts. "
07/01/2012 - "Preparation of highly dispersed tungsten oxide on MCM-41 via atomic layer deposition and its application to butanol dehydration."
07/01/2012 - "The highly dispersed tungsten oxide on MCM-41 prepared via ALD can be an effective catalyst for producing butenes through 2-butanol dehydration."
|6.||dysprosium oxide (dysprosia)