alkali oxyapatite

简明释义

碱氧磷灰石;

英英释义

例句

1.The research team discovered that alkali oxyapatite 碱性氧磷灰石 can enhance bone regeneration in vitro.

研究团队发现，alkali oxyapatite 碱性氧磷灰石 可以在体外增强骨再生。

2.The synthesis of alkali oxyapatite 碱性氧磷灰石 involves a hydrothermal method that optimizes its properties.

合成alkali oxyapatite 碱性氧磷灰石 涉及一种水热法，以优化其性能。

3.The incorporation of alkali oxyapatite 碱性氧磷灰石 into cement formulations improves their mechanical strength.

将alkali oxyapatite 碱性氧磷灰石 纳入水泥配方中可以提高其机械强度。

4.In dental applications, alkali oxyapatite 碱性氧磷灰石 is used to improve the bonding of dental implants.

在牙科应用中，alkali oxyapatite 碱性氧磷灰石 被用来改善牙植体的结合。

5.Studies show that alkali oxyapatite 碱性氧磷灰石 can be an effective carrier for drug delivery systems.

研究表明，alkali oxyapatite 碱性氧磷灰石 可以作为药物传递系统的有效载体。

作文

The term alkali oxyapatite refers to a specific type of mineral that possesses unique properties due to its chemical composition. Composed primarily of calcium, phosphate, and hydroxide ions, alkali oxyapatite is a member of the apatite family, which is known for its hexagonal crystal structure. This mineral is particularly interesting because it incorporates alkali metal ions such as sodium or potassium into its structure, which alters its physical and chemical properties. The presence of these alkali ions can enhance the solubility of the mineral in certain environments, making it valuable for various applications in materials science and biology.In recent years, research has focused on the potential uses of alkali oxyapatite in biomedicine, particularly in bone regeneration and dental applications. Its similarity to natural bone mineral makes it an excellent candidate for use in implants and prosthetics. The ability of alkali oxyapatite to promote osteoconductivity, which is the ability to support the growth of new bone tissue, is a vital characteristic that researchers are keen to explore. Furthermore, the incorporation of alkali metals can improve the bioactivity of the material, leading to better integration with surrounding tissues.Additionally, alkali oxyapatite has shown promise in environmental applications, particularly in the remediation of heavy metal contaminants. The unique structure of this mineral allows it to adsorb and immobilize toxic metals, thus reducing their bioavailability in contaminated sites. This property makes alkali oxyapatite a potential candidate for use in sustainable environmental management practices.Moreover, the synthesis of alkali oxyapatite can be achieved through various methods, including solid-state reactions, sol-gel processes, and hydrothermal techniques. Each method offers different advantages and allows for the fine-tuning of the mineral's properties. For instance, the sol-gel process can produce nanoparticles of alkali oxyapatite, which may have enhanced reactivity and surface area compared to bulk materials. Such advancements in the production of alkali oxyapatite could lead to innovative applications in both medical and environmental fields.In conclusion, alkali oxyapatite is a fascinating mineral that bridges the gap between chemistry, biology, and environmental science. Its unique properties and versatility make it an important subject of study for researchers aiming to develop new materials for a variety of applications. As our understanding of alkali oxyapatite continues to grow, we can expect to see significant advancements in its use in biomedical engineering and environmental remediation, contributing to improved health outcomes and sustainable practices.

术语碱性氧化磷灰石指的是一种特定类型的矿物，由于其化学成分而具有独特的性质。碱性氧化磷灰石主要由钙、磷酸盐和氢氧根离子组成，是已知的六角晶体结构的磷灰石家族的一员。这种矿物特别有趣，因为它在其结构中引入了钠或钾等碱金属离子，这改变了其物理和化学性质。这些碱金属离子的存在可以增强矿物在某些环境中的溶解度，使其在材料科学和生物学的各种应用中具有价值。近年来，研究集中在碱性氧化磷灰石在生物医学中的潜在用途，特别是在骨再生和牙科应用方面。它与天然骨矿物的相似性使其成为植入物和假体使用的优秀候选者。碱性氧化磷灰石促进骨导电性的能力，即支持新骨组织生长的能力，是研究人员热衷于探索的重要特征。此外，碱金属的引入可以提高材料的生物活性，从而更好地与周围组织整合。此外，碱性氧化磷灰石在环境应用中也显示出前景，特别是在重金属污染的修复方面。这种矿物的独特结构使其能够吸附和固定有毒金属，从而减少其在污染场所的生物可用性。这一特性使得碱性氧化磷灰石成为可持续环境管理实践中的潜在候选者。此外，碱性氧化磷灰石的合成可以通过多种方法实现，包括固态反应、溶胶-凝胶过程和水热技术。每种方法都有不同的优势，并允许对矿物的性质进行精细调整。例如，溶胶-凝胶过程可以生产纳米级的碱性氧化磷灰石，与块状材料相比，可能具有更高的反应性和表面积。这些在碱性氧化磷灰石生产中的进展可能会导致在医学和环境领域的创新应用。总之，碱性氧化磷灰石是一种迷人的矿物，连接了化学、生物学和环境科学之间的桥梁。其独特的性质和多功能性使其成为研究人员研究新材料的重要课题，适用于各种应用。随着我们对碱性氧化磷灰石理解的不断深入，我们可以期待在生物医学工程和环境修复方面看到显著的进展，从而改善健康结果并推动可持续实践。