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钠硼解石——水体系溶解和相平衡的研究(英) 总被引:3,自引:0,他引:3
Ulexite dissolution in water has been studied in the wide temperature range from 10℃ to 93℃ and two higher temperatures at 120 ℃ and 240 ℃. The analytical results showed that ulexite dissolved congruently from 10 ℃ to 35 ℃ and incongruently from 40 to 68 ℃. The solid component of ulexite, NaCaB5O6(OH)6·5H2O was dehydrated to form NaCaB5O6(OH)6·H2O from 50 to 68 ℃ and finally amorphous solid at 68 ℃. This amorphous solid converted into priceite at 71 ℃ and then converted completely to priceite at the boiling point(93℃) of the solution. At both 120 and 240 ℃, the dissolution of ulexite was an incongruent process. Above 120 ℃, ulexite became amorphous solid and then transformed into priceite. In addition to the solid to solid transformation, crystallization of priceite from the solution has also been observed. Based on our experimental results, mechanisms of dissolution, transformation, and crystallization of borate in ulexite-water system are discussed. 相似文献
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四元体系KCl-ZnCl2-HCl(~10.61%)-H2O(298.15K)的相平衡及其固相化合物 总被引:1,自引:0,他引:1
0引言研究发现,卤化物KX与ZnX2组成的复盐化合物是一种良好的激光基质材料犤1犦,在掺杂了稀土离子的这些化合物中已经实现了低温或室温下的激光输出犤2,3犦。在卤化物中,氯化物的发光强度又大于氟化物犤4犦。因此,我们以KCl与ZnCl2为研究对象,通过盐酸溶液中的相化学反应来了解它们之间可能形成新化合物的种类和溶液中的反应行为。本文对KCl与ZnCl2在25℃11%的盐酸-水四元体系中的相平衡关系进行了研究,并从体系中发现并得到了未见文献报道的5∶4型新化合物5KCl·4ZnCl2·3H2O。1实验部分1.1药品及… 相似文献
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2MgO·2B2O3·MgCl2·14H2O-7.8%H3BO3-H2O体系多温相关系研究 总被引:1,自引:0,他引:1
研究了2MgO·2B2O3·MgCl2·14H20在不同温度下的7.8%H3BO3水溶液中的相转化产物及其溶解度.IR,XRD,TG及化学分析表明,相转化产物在0~22℃范围内为MgO·2B2O3·9H20;22~68℃为MgO·2B2O3·7.5H20;68~95℃为MgO·2B2O3·7H20;95~98.8℃为MgO·2B2O3·5H20;100~110℃为MgO·B2O3·3H20;110~120℃为2MgO·B2O3·2H20;120~170℃为2MgO·B2O3·1.5H20;170~200℃为2MgO·B2O3·H20.提出了相转化反应原理. 相似文献
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硼是具有独特化学行为的稀有亲氧元素,在自然界中主要是以无机硼氧酸和硼氧酸盐形式存在。在硼酸盐晶体中,硼以聚合硼氧配阴离子形式存在,其中配位数为3和4的硼原子比可以有所不同,这使得硼酸盐种类繁多,结构复杂多样。至今,人们在自然界和实验室已发现了4种六硼酸镁盐犤1,2犦:MgO·3B2O3·nH2O(n=7.5,7,6,5),它们的分子结构中都含有犤B6O7(OH)6犦2-基团。最近,我们在硼酸盐化学系列研究中,利用复盐氯柱硼镁石在沸点温度下的硼酸溶液中的相转化,合成了一种新的六硼酸镁盐MgO·3B2O3·3.… 相似文献
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A2Ca[B4O5(OH)4]2·8H2O(A=Rb,Cs)硼氧酸盐复盐的合成与表征 总被引:5,自引:0,他引:5
硼氧酸盐晶体结构复杂,因此出现了许多具有特殊物理性能的晶体功能材料犤1,2犦,尤其是重稀碱金属硼氧酸盐(或复盐),如CsLiB6O10犤3犦、LiRbB4O7犤4犦和CsB3O5(CBO)犤5犦都是非线性光学材料。一些学者对铷、铯的偏硼氧酸盐、四硼氧酸盐和五硼氧酸盐的合成、性质及晶体结构等进行过研究犤6~9犦。硼氧酸盐复盐,大多为碱金属和碱土金属、碱金属和碱金属及碱土金属和碱土金属的硼氧酸盐犤10犦,如自然界存在的钠硼解石狖NaCa犤B5O6(OH)6犦·5H2O狚、硼钠镁石狖Na2Mg犤B6O8(OH)4犦2·6H2O… 相似文献
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采用Al和TiN靶通过磁控共溅射方法, 制备了一系列Ti:N≈1的不同(Ti, N) 含量的铝基纳米复合薄膜, 利用X射线能量分散谱仪、X射线衍射仪、透射电子显微镜和纳米力学探针表征了薄膜的成分、 微结构和力学性能, 研究了(Ti, N)含量对复合薄膜微结构和力学性能的影响. 结果表明: Ti, N原子的共同加入使复合薄膜形成了同时具有置换固溶和间隙固溶特征的"双超过饱和固溶体", 薄膜的晶粒随着溶质含量的增加逐步纳米化, 并进一步形成非晶结构, 晶界区域形成溶质原子的富集区. 相应地, 复合薄膜的硬度在含1.8 at.%(Ti, N) 时就可迅速提高到3.9 GPa; 随着TiN含量的增加, 薄膜的硬度进一步提高到含17.1 at.%(Ti, N)时的8.8 GPa. 以上结果显示出Ti和N"双超过饱和固溶"对Al薄膜极其显著的强化效果. 相似文献
8.
The forward current-voltage (I-V) characteristics of polycrystalline CoSi2/n-Si(100) Schottky contacts have been measured in a wide temperature range. At low temperatures (≤200K), a plateau-like section is observed in the I-V characteristics around 10-4A·cm-2. The current in the small bias region significantly exceeds that expected by the model based on thermionic emission (TE) and a Gaussian distribution of Schottky barrier height (SBH). Such a double threshold behaviour can be explained by the barrier height inhomogeneity, i.e. at low temperatures the current through some patches with low SBH dominates at small bias region. With increasing bias voltage, the Ohmic effect becomes important and the current through the whole junction area exceeds the patch current, thus resulting in a plateau-like section in the I-V curves at moderate bias. For the polycrystalline CoSi2/Si contacts studied in this paper, the apparent ideality factor of the patch current is much larger than that calculated from the TE model taking the pinch-off effect into account. This suggests that the current flowing through these patches is of the tunnelling type, rather than the thermionic emission type. The experimental I-V characteristics can be fitted reasonably well in the whole temperature region using the model based on tunnelling and pinch-off. 相似文献
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Jing-Jing Peng Shi-Yang Yue Yu-Hui Fang Xiao-Ling Liu Cheng-Hua Wang 《Molecules (Basel, Switzerland)》2021,26(23)
Selenocysteine (Sec) is the 21st non-standard proteinogenic amino acid. Due to the particularity of the codon encoding Sec, the selenoprotein synthesis needs to be completed by unique mechanisms in specific biological systems. In this paper, the underlying mechanisms for the biosynthesis and incorporation of Sec into selenoprotein were comprehensively reviewed on five aspects: (i) the specific biosynthesis mechanism of Sec and the role of its internal influencing factors (SelA, SelB, SelC, SelD, SPS2 and PSTK); (ii) the elements (SECIS, PSL, SPUR and RF) on mRNA and their functional mechanisms; (iii) the specificity (either translation termination or translation into Sec) of UGA; (iv) the structure–activity relationship and action mechanism of SelA, SelB, SelC and SelD; and (v) the operating mechanism of two key enzyme systems for inorganic selenium source flow before Sec synthesis. Lastly, the size of the translation initiation interval, other action modes of SECIS and effects of REPS (Repetitive Extragenic Palindromic Sequences) that affect the incorporation efficiency of Sec was also discussed to provide scientific basis for the large-scale industrial fermentation for the production of selenoprotein. 相似文献