stannate

简明释义

英[ˈstæneɪt]美[ˈstænet]

n. [无化] 锡酸盐

英英释义

单词用法

同义词

反义词

例句

1.The results show that corrosion resistance of the stannate conversion coating pretreated as following process: acid pickled by phosphate first, then alkaline pickled by s...

结果表明：先用磷酸酸洗，再用氢氧化钠、磷酸三钠、碳酸钠溶液碱洗的预处理方案得到的转化膜耐腐蚀性能最优。

2.The sodium stannate from slag containing tin is prepared directly by the process including alkali fusion, leaching, purification, concentration and crystallization.

以含锡渣为原料，采用碱熔—浸出—除杂—浓缩结晶工艺直接制取了锡酸钠产品。

3.The effects of Zinc stannate coated CaCO3(ZSC-1) flame retardant on properties of PVC cable material were studied by the tests of OI, SDR, thermal property and mechanical property.

通过氧指数（OI）、烟密度等级（SDR）、热性能和力学性能的测定，研究了锡酸锌包覆碳酸钙阻燃剂对聚氯乙烯（PVC）电缆料性能的影响。

4.Experiment of co-deposition of Ni particles with Sn metal from alkaline stannate bath was performed and the friction performance of the resulting Sn-Ni composite coatings was investigated.

在碱性锡酸盐镀锡溶液中进行了镍微粒与锡的共沉积试验，对所得锡-镍复合镀层的磨擦性能进行了研究。

5.Catalytic effect of alkyl stannate on rosin esterification was studied. Factors affecting the esterification reaction are discussed in detail.

以松香树脂酸的酯化反应为例，研究了烷基锡酸对酯化反应的催化作用，系统的探讨了影响反应的各种因素。

6.Experiment of co-deposition of Ni particles with Sn metal from alkaline stannate bath was performed and the friction performance of the resulting Sn-Ni composite coatings was investigated.

在碱性锡酸盐镀锡溶液中进行了镍微粒与锡的共沉积试验，对所得锡-镍复合镀层的磨擦性能进行了研究。

7.The effects of zinc stannate on flame retardancy and smoke suppression of soft PVC were studied by means of LOI, TGA and smoke density measurement.

采用氧指数法、热重分析及烟密度测试法就锡酸锌对软质pvc的阻燃抑烟行为进行了研究。

8.Researchers are exploring the use of stannate in nanotechnology applications.

研究人员正在探索在纳米技术应用中使用stannate。

9.In the laboratory, we tested the reactivity of stannate with various acids.

在实验室，我们测试了stannate与各种酸的反应性。

10.The stability of stannate compounds makes them ideal for long-term storage.

由于stannate化合物的稳定性，使它们非常适合长期储存。

11.The chemist synthesized a new compound using stannate to improve the material's conductivity.

化学家合成了一种新化合物，使用stannate来提高材料的导电性。

12.The production of solar cells often involves stannate as a key ingredient.

太阳能电池的生产通常涉及stannate作为关键成分。

作文

In the field of chemistry, the understanding of various compounds is crucial for advancements in material science and technology. One such compound that has garnered interest among researchers is stannate, which refers to a group of chemical compounds containing tin in their structure. Specifically, stannate compounds are typically derived from stannic acid (H2SnO3) and can be represented by the general formula M2SnO4, where M represents a metal cation. The unique properties of stannate make it a valuable subject of study in various applications, including electronics, catalysis, and even medicine.The significance of stannate can be observed in its role as a precursor for the synthesis of tin oxide materials. Tin oxide, particularly in its doped forms, is widely used in the production of transparent conductive films, which are essential in the manufacturing of touch screens, solar cells, and flat-panel displays. By understanding the properties and behaviors of stannate, scientists can manipulate the synthesis process to create materials with specific electrical and optical characteristics.Moreover, stannate compounds have shown promise in the field of catalysis. The catalytic properties of tin-based compounds can be harnessed to facilitate various chemical reactions, including oxidation and reduction processes. This is particularly important in the development of sustainable chemical processes that aim to reduce environmental impact while maintaining efficiency. Researchers are continually exploring the potential of stannate as a catalyst, leading to innovative solutions in green chemistry.In addition to its industrial applications, stannate has also been studied for its potential biological activities. Some studies suggest that certain stannate compounds exhibit antimicrobial properties, making them candidates for further investigation in the field of medicine. Understanding how stannate interacts with biological systems could lead to the development of new therapeutic agents or disinfectants that are both effective and safe.Despite the promising applications of stannate, there are challenges that researchers face in its study. The stability of stannate compounds can vary significantly depending on environmental conditions such as temperature and pH. This variability necessitates careful control during experiments and applications to ensure consistent results. Furthermore, the toxicity of some tin compounds raises concerns about the safety and environmental impact of using stannate in various industries. As a result, ongoing research aims to better understand these compounds' behavior and mitigate any potential risks associated with their use.In conclusion, stannate represents an intriguing area of study within the realm of chemistry. Its unique properties and potential applications in electronics, catalysis, and medicine highlight the importance of continued research in this field. By gaining a deeper understanding of stannate and its derivatives, scientists can unlock new possibilities for innovative materials and processes that benefit society as a whole. As we move forward, it is essential to balance the benefits of stannate with the necessary precautions to ensure its safe and responsible use in various applications.

在化学领域，理解各种化合物对于材料科学和技术的进步至关重要。其中一种引起研究人员兴趣的化合物是stannate，它指的是一类含有锡的化合物。具体来说，stannate化合物通常源自锡酸（H2SnO3），可用一般公式M2SnO4表示，其中M代表金属阳离子。stannate的独特性质使其成为在电子、催化甚至医学等各种应用中值得研究的对象。stannate的重要性可以通过其作为锡氧化物材料合成前体的角色来观察。锡氧化物，特别是在掺杂形式下，广泛用于透明导电薄膜的生产，这在触摸屏、太阳能电池和平板显示器的制造中至关重要。通过理解stannate的性质和行为，科学家们可以操控合成过程，以创造具有特定电气和光学特性的材料。此外，stannate化合物在催化领域也显示出潜力。基于锡的化合物的催化特性可以被利用来促进各种化学反应，包括氧化和还原过程。这在开发旨在减少环境影响同时保持效率的可持续化学过程中尤为重要。研究人员不断探索stannate作为催化剂的潜力，从而在绿色化学中提出创新解决方案。除了工业应用外，stannate还因其潜在的生物活性而受到研究。一些研究表明，某些stannate化合物表现出抗微生物特性，使它们成为医学领域进一步研究的候选者。理解stannate如何与生物系统相互作用可能导致新治疗剂或消毒剂的发展，这些治疗剂或消毒剂既有效又安全。尽管stannate的应用前景广阔，但研究人员在研究中面临着挑战。stannate化合物的稳定性可能会因温度和pH等环境条件而显著变化。这种变异性需要在实验和应用过程中进行仔细控制，以确保结果的一致性。此外，一些锡化合物的毒性引发了对在各个行业使用stannate的安全性和环境影响的担忧。因此，持续的研究旨在更好地理解这些化合物的行为，并减轻与其使用相关的任何潜在风险。总之，stannate代表了化学领域内一个引人入胜的研究领域。其独特的性质及在电子、催化和医学中的潜在应用突显了该领域持续研究的重要性。通过深入理解stannate及其衍生物，科学家们可以为创新材料和工艺打开新的可能性，造福整个社会。随着我们向前发展，平衡stannate的好处与必要的预防措施以确保其在各种应用中的安全和负责任使用是至关重要的。