Effects of liming on Cr(VI) reduction and Cr phytotoxicity in Cr(VI)-contaminated soils

Chen, Chiou‐Pin; Juang, Kai‐Wei; Lee, Dar‐Yuan

doi:10.1080/00380768.2011.653673

Cited by 9 publications

(1 citation statement)

References 45 publications

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“…; 液相化学反应可大大减小未成键的状态, 获得低缺陷产物, 但常加入表面活性剂等有机大分子形成表面配体来保证产物的小尺寸, 后期需通过煅烧或加入反应剂等方法来去除吸附在超小团簇表面的有机分子, 也会引起二次团聚, 不利于保持超小团簇的单分散性 [8][9] [16][17]…”

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Synthesis and Photocatalysis Property of Ultra-small TiO$lt;inf$gt;2$lt;/inf$gt; Nanoclusters in Aqueous Media

Lin¹,

Xiao²,

Chu³

2017

Journal of Inorganic Materials

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Atomic clusters are of significant interest in catalysis. Ultra-small TiO 2 nanoclusters, a stable Ti-O cluster with diameters of a few nanometers or less, can exhibit fascinating reactive, optical and electronic properties. In this work, ~2 nm TiO 2 ultra-small nanoclusters were obtained by peptizing hydrolysate of tetrabutyl titanate (TPT) at 80℃. HRTEM and XRD were used to characterize microstructure of the ultra-small TiO 2 nanoclusters, which was verified to have crystalline phase anatase. XPS demonstrated that the valence state of Ti atom was Ti 4+ and no oxygen vacancy existed. Optical absorption properties were determined by UV-Vis spectroscopy and demonstrated that the ultra-small TiO 2 nanoclusters had extraordinary strong absorption in the light wavelength range from 235 nm to 340 nm. According to the transmission spectrum, the optical band gap was calculated to be 3.56 eV, indicating an appreciable size-base quantum effect. The specific surface area was analyzed to be 269.28 m 2 /g for Langmuir surface area and 186.90 m 2 /g for multi-point BET surface area, respectively. Photocatalytic reduction of Cr 6+ to Cr 3+ in ultra-small TiO 2 aqueous sol was investigated to estimate the photocatalytic activity. It demonstrated that the reduction rate of Cr 6+ to Cr 3+ by ultra-small TiO 2 nanoclusters was four times faster than that by widely used nano-crystals one. And owing to extraordinary strong ultraviolet absorption of the former, Cr 6+ was completely reduced to Cr 3+ under sunlight illumination.

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