2011-2015年
2015-12-31 | 【 】
15.zheng yang, xincun dou*, shengli zhang, linjuan guo, baiyi zu, zhaofeng wu, haibo zeng, a high-performance nitro-explosives schottky sensor boosted by interface modulation, advanced functional materials, 2015, 25, 4039-4048(卷首插画)
14.linjuan guo, baiyi zu, xincun dou*, fluorescent nanofilms for nitroaromatic explosives detection-promises and challenges, chemical sciences journal, 2014, 5:1(编辑评论)
13.baiyi zu, bin lu, zheng yang, yanan guo, xincun dou*,tao xu*, gas adsorption thermodynamics deduced from the electrical responses in gas-gated field-effect nanosensors, journal of physical chemistry c, 2014, 118, 14703–14710
12.zheng yang, linjuan guo,baiyi zu*, yanan guo, tao xu, xincun dou*, cds/zno core/shellnanowire-built films for enhanced photodetecting and optoelectronic gas-sensingapplications, advanced optical materials, 2014, 2, 738-745(卷首插画)
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11.baiyi zu, bin lu, yanan guo, tao xu, xincun dou*, simple metal/sio2/si planar photodetector utilizing leakage current flows through a sio2 layer, journal of materials chemistry c, 2014, 2, 2045-2050.
10.linjuan guo, baiyi zu, zheng yang, hongyu cao, xuefang zheng*, xincun dou*, apts and rgo co-functionalized pyrenated fluorescent nanonets for representative vapor phase nitroaromatic explosive detection, nanoscale, 2014, 6, 1467-1473.
9.baiyi zu, yanan guo, xincun dou*, nanostructure-based optoelectronic sensing of vaporphase explosives - a promising but challenging method, nanoscale, 2013, 5, 10693-10701(opinion)
8.yanan guo, baiyi zu, xincun dou*, zeolite-based photocatalysts: a promising strategy for efficient photocatalysis, journal of thermodynamics & catalysis, 2013, 4:2(编辑评论)
7.xincun dou, is graphene brand newin carbon-based semiconductor photocatalysts for organic pollutantsdegradation, journal of thermodynamics & catalysis, 2012, 3, 1-2(编辑评论)
6.dou, x. c.*; prabhakar, r. r.; mathews, n.; lam, y. m.; mhaisalkar, s., zn-doped sno2 nanocrystals as efficient dssc photoanode material and remarkable photocurrent enhancement by interface modification, journal of the electrochemical society, 2012, 159, h735-h739.
5.mulmudi, h. k.; mathews, n.; dou, x. c.; xi, l. f.; pramana, s. s.; lam, y. m.; mhaisalkar, s. g., controlled growth of hematite (αfe2o3) nanorodarray on fluorine doped tin oxide: synthesis and photoelectrochemical properties, electrochemistry communications, 2011, 13, 951-954.
4.dou, x. c.; li, l.; huang, x. h. and li, g. h., growth mechanisms of electrodeposited nanowires. incrystal growth: theory, mechanisms and morphology, nicole a. mancuso and james p. isaac, ed.nova publishers, 2011. (book chapter)
3.dou, x. c.*; sabba, d.; mathews, n.; wong, l. h.; lam, y. m.; mhaisalkar, s., hydrothermal synthesis of high electron mobility zn-doped sno2 nanoflowers as photoanode material for efficient dye sensitized solar cells, chemistry of materials, 2011, 23, 3938-3945.
2.dou, x. c.*; mathews, n.; wang, q.; pramana, s. s.; lam, y. m.; mhaisalkar, s., novel zn-sn-o nanocactus withexcellent transport properties as photoanode material for high performance dye-sensitized solar cells, nanoscale, 2011, 3, 4640-4646.
1.dou, x. c.; li, h.; mathews, n.; helena wong, l.; ming lam, y.; mhaisalkar, s., cu-s nanocabbage films with tunable optical bandgap and substantially improved stability by pulse electrodeposition, journal of the electrochemical society, 2011, 158, e60-e62.
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