The effect of pH on the micellar morphology of a semicrystalline poly( ε -caprolactone)-blockpoly(ethylene oxide) block copolymer (PCL 66 -b -PEO 44 ) in aqueous solution is investigated. Spherical micelles are formed in neutral and acidic solutions. However, addition of alkali to the neutral micellar solution triggers a sphere-to-cylinder transformation of the micellar morphology. The micelles are stable in both neutral and acidic solutions, but the size of the micelles becomes gradually larger in the alkali solution. This phenomenon is interpreted in terms of the effect of pH value on the reduced tethering density of the corona in the semicrystalline micelles.
Bamboo has received increasing attention as an alternative raw material for wood in the late twentieth century for its fast growing nature and good mechanical properties. But bamboo is readily discolored by mould fungi, which greatly limits the applications of bamboo. In this paper, mould-resistance of moso bamboo treated with chitosan-copper complex (CCC Ò ), propiconazole (PPA), tebuconazole (TBA), the compound of CCC Ò and PPA or TBA was reported. Results showed that CCC Ò or PPA used alone as bamboo-mould inhibiter could defer or restrain the growth of Penicillium citrinum Thom (P. citrinum), while not being effective against Trichoderma viride Pers. ex Fr (T. viride) and Aspergillus niger V. Tiegh (A. niger). However, the compound of CCC Ò and PPA could inhibit all mould fungi in the test, showing a good synergetic effect. Additionally, TBA had better resisting effect against P. citrinum and T. viride than against A. niger, but showed no synergetic effect with CCC Ò .
Graphite oxide (GO) has attracted much attention of material and catalysis chemists recently. Here we describe a combination of GO and molecular sieves for the dehydrogenative aromatization. GO prepared through improved Hummers method showed high oxidative activity in this reaction. Partially or fully saturated aromatic compounds were converted to their corresponding dehydrogenated aromatic products with fair to excellent conversions and selectivities. As both GO and molecular sieves are easily available, cheap, lowly toxic and have good tolerance to various functional groups, this reaction provides a facile approach toward aromatic compounds from their saturated precursors.
Controlling the synthesis of metal nanostructures is
one approach
for catalyst engineering and performance optimization in electrocatalysis.
As an emerging class of unconventional electrocatalysts, two-dimensional
(2D) metallene electrocatalysts with ultrathin sheet-like morphology
have gained ever-growing attention and exhibited superior performance
in electrocatalysis owing to their distinctive properties originating
from structural anisotropy, rich surface chemistry, and efficient
mass diffusion capability. Many significant advances in synthetic
methods and electrocatalytic applications for 2D metallenes have been
obtained in recent years. Therefore, an in-depth review summarizing
the progress in developing 2D metallenes for electrochemical applications
is highly needed. Unlike most reported reviews on the 2D metallenes,
this review starts by introducing the preparation of 2D metallenes
based on the classification of the metals (e.g., noble metals, and
non-noble metals) instead of synthetic methods. Some typical strategies
for preparing each kind of metal are enumerated in detail. Then, the
utilization of 2D metallenes in electrocatalytic applications, especially
in the electrocatalytic conversion reactions, including the hydrogen
evolution reaction, oxygen evolution reaction, oxygen reduction reaction,
fuel oxidation reaction, CO2 reduction reaction, and N2 reduction reaction, are comprehensively discussed. Finally,
current challenges and opportunities for future research on metallenes
in electrochemical energy conversion are proposed.
Bamboo, a natural material, has been widely used in the fields of decoration, architecture and furniture. However, bamboo is easy to mildew and lose its use value. In this paper, the inhibition mechanism and antibacterial activity of a natural antibacterial agent citral on bamboo mould and its anti-mildew effect on bamboo were studied. The results showed that citral could change the shape of mycelium, destroy the integrity of mycelium structure, cell wall and cell membrane structure, thereby causing leakage of nucleic acids, proteins and other substances in the cell, as well as destroy the pH balance of the inside and outside of the cell, to inhibit or kill mould. When the concentration of citral is 100 mg ml
−1
, the antibacterial rates of citral against
Penicillium citrinum
(PC),
Trichoderma viride
(TV),
Aspergillus niger
(AN) and a hybrid fungi group comprising PC, TV and AN (Hun) were more than 100%. However, compared with the direct effect of citral on mould, the antibacterial property of bamboo treated with citral was significantly reduced, the mildew proof effect can be achieved only if the concentration of citral to treat bamboo is increased to more than twice the concentration of citral directly acting on mould.
This paper describes the action mechanism of a waterborne epoxy resin (WEP) cross-linked inside wood and its influence on wood dimensional, thermal, and fungal stability. The WEP prepared by phase inversion was impregnated into wood under vacuum-pressure treatment, followed by in situ cross-linking upon heating to form a hydrophobic network inside wood porous structures. The weight gain and volume increment of the treated wood combined with the morphological observation indicated that the WEP components were able to penetrate into wood cell lumens as well as cell walls, cross-link, and finally fix stably inside them. The good fixation of the epoxy resin network formed in wood reduced the leaching into water. Results from Fourier transform infrared (FTIR) spectroscopy confirmed the reaction between the epoxy and wood. In addition, it was found that the dimensional stability, thermal stability, and decay resistance of wood were improved with the WEP modification. The scanning electron microscopy images clearly showed that brown-rot fungus caused more serious damage to the structure of wood than white-rot fungus.
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