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ABSTRACT: Low-temperature catalysts of mesoporous Co(3)O(4) and Au/Co(3)O(4) with high catalytic activities for the trace ethylene oxidation at 0 degrees C are reported in this paper. The catalysts were prepared by using the nanocasting method, and the mesostructure was replicated from three-dimensional (3D) cubic KIT-6 silicas. High resolution transmission electron microscopy (HRTEM) studies revealed that {110} facets were the exposed active surfaces in the mesoporous Co(3)O(4), whereas the Co(3)O(4) nanosheets prepared by the precipitation method exhibited the most exposed {112} facets. We found that the mesoporous Co(3)O(4) was significantly more active for ethylene oxidation than the Co(3)O(4) nanosheets. The results indicated that the crystal facet {110} of Co(3)O(4) played an essential role in determining its catalytic oxidation performance. The synthesized Au/Co(3)O(4) materials, in which the gold nanoparticles were assembled into the pore walls of the Co(3)O(4) mesoporous support, exhibited stable, highly dispersed, and exposed gold sites. Gold nanoparticles present on Co(3)O(4) readily produced surface-active oxygen species and promoted ethylene oxidation to achieve a 76% conversion at 0 degrees C, which is the highest conversion reported yet.
Journal of the American Chemical Society 02/2010; 132(8):2608-13. · 9.91 Impact Factor
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ABSTRACT: Effective control and removal of nitrogen oxides (NO(x)) emission from vehicles exhausts under lean-burn condition is one of the most important targets in scientific research of environmental protection. A comprehensive introduction of NO(x) storage and reduction (NSR), the most promising lean-NO(x) control technology, is given including the sum-up of NSR materials, catalytic activity and related reaction mechanisms. Emphasis is put on the novel multifunctional NSR catalysts, derived from hydrotalcite-like compounds, with characteristic of simultaneous NO(x) strorage-decomposition-reduction. Finally, future research directions in the area of lean-NO(x) control based on mixed oxide catalysts derived from hydrotalcite-like materials is also proposed.
Journal of Colloid and Interface Science 03/2009; 333(2):423-30. · 3.07 Impact Factor
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Aquaculture Research 10/2006; 37(16):1694 - 1698. · 1.20 Impact Factor
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ABSTRACT: Calcium oscillations can, by default, encode diverse and specific signals by different modes of modulation. Frequency modulation is illustrated by the activation of calcium/calmodulin-dependent protein kinase II at unit Hz, and of calcineurin at 10 mHz frequencies, respectively. The submandibular gland secretory axis is characterized by both potassium and osmolarity gradients from the luminal side of the secretory cells. Such gradients may play significant physiological roles through the feedback modulation of cholinergic stimulation. High potassium transforms plateau calcium increases induced by cholinergic stimulation of the submandibular acinar cells into oscillatory calcium increases. The ductal cells may have similar mechanisms of feedback modulation both by high potassium and by hypoosmolarity. Such feedback mechanisms could modulate the decision-making process for determining which secretory products are selectively released after nerve stimulation.
Acta Pharmacologica Sinica 08/2006; 27(7):843-7. · 1.95 Impact Factor
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ABSTRACT: Calcium oscillations can, by default, encode diverse and specific signals by different modes of modulation. Frequency modulation is illustrated by the activation of calcium/calmodulin-dependent protein kinase II at unit Hz, and of calcineurin at 10 mHz frequencies, respectively. The submandibular gland secretory axis is characterized by both potassium and osmolarity gradients from the luminal side of the secretory cells. Such gradients may play significant physiological roles through the feedback modulation of cholinergic stimulation. High potassium transforms plateau calcium increases induced by cholinergic stimulation of the submandibular acinar cells into oscillatory calcium increases. The ductal cells may have similar mechanisms of feedback modulation both by high potassium and by hypoosmolarity. Such feedback mechanisms could modulate the decision-making process for determining which secretory products are selectively released after nerve stimulat ion.
Acta Pharmacologica Sinica 06/2006; 27(7):843 - 847. · 1.95 Impact Factor
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ABSTRACT: Mitochondrial DNA marker has been applied in genetic structure and phylogenetic analysis, but the differences between nuclear mitochondrial pseudogenes (Numts) and mitochondrial DNA complicate phylogenetic analysis. Using the universal and special primers, 34 pseudogene sequences (Numts) and 5 real mtDNA COI sequences were amplified respectively from 34 individuals of Scylla paramamosain from the coast of southeast China. Twenty-nine haplotypes were identified and two groups (Group I and Group II) were determined according to the homology of the 34 pseudogene sequences. Two insertions and an 8-bp deletion were found in some sequences of Group I, but no indel (insertion and deletion) was found in Group II. Compared to mtDNA COI sequences, the two groups had their conservative sites respectively. At least two independent nuclear transfer events are required to explain the codon position biases revealed through the pairwise comparisons of the 34 Numts, one for Group I and one for Group II. The results showed the necessity of great care in interpreting PCR-generated mtDNA sequences using universal primers when used in population or evolutionary studies in genus Scylla.
Hereditas (Beijing) 01/2006; 28(1):43-9.
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ABSTRACT: Concentration-dependent transformation of hormone- and neurotransmitter-induced calcium oscillation is a common phenomenon in diverse types of cells especially of the secretory type. The rodent submandibular acinar cells are an exception to this rule, which show elevated plateau increase in intracellular calcium under all stimulatory concentrations of both norepinephrine and acetylcholine. However, under depolarized state this cell type could also show a variation of periodic calcium changes. This reserved mechanism of calcium oscillation is jump-started by depolarization only with muscarinic cholinergic stimulation, but not with adrenergic stimulation. This latter effect is attributable to alpha receptor activation, not due to simultaneous activation of alpha and beta receptors, with beta receptor activation only serving to enhance the magnitude. These data suggest that this reserved mechanism for inducing calcium oscillation can be selectively used only by specific receptor-signaling pathways, and may therefore partly explain the long-known differences between secretion induced by sympathetic and parasympathetic stimulation in the submandibular gland.
Cellular Signalling 01/2005; 16(12):1435-40. · 4.06 Impact Factor
