chemosynthesis

chemosynthesis的音标是[ˌtʃekəʊsɪˈnæθɪsɪs]，意思是化学合成。基本翻译为“化学合成”，是一种生物体利用能量，从简单的无机物（如水、二氧化碳和氢气）合成复杂有机化合物的过程。速记技巧可以是：谐音记忆，将其记为“吃小新拿稀奇”。其中，“吃”代指“利用”，“小新”代指“简单”（simple），“拿”代指“合成”（synthesize），“稀奇”代指“无机物”（inorganic）。

Chemosynthesis化学合成，这个词源于希腊语“chemos”（化学）和“synthèsis”（合成）。

变化形式：名词形式为chemosynthesis，动词形式为synthesize。

相关单词：

1. Chemical合成化学的，与chemosynthesis相关。这个词可以作为名词使用，表示化学物质或化合物。

2. Synthesis合成，与chemosynthesis相似，但并不完全相同。它通常指将不同的物质或分子结合在一起的过程。

3. Biosynthesis生物合成，与化学合成不同，它是指生物体内进行的合成过程。

4. Catalysis催化，化学合成过程中常用的一个过程，催化剂可以加速化学反应的速度。

5. Reaction reaction，化学合成过程中发生的反应，通常涉及物质的转化或分解。

6. Reaction product反应产物，化学合成过程中产生的物质，通常是由反应产生的新的化合物或物质。

7. Organic chemistry有机化学，一个分支学科，主要研究有机化合物的合成、性质和反应。

8. Catalyst催化剂，在化学合成过程中可以加速反应速度的物质，通常不参与最终产物的形成。

9. Redox reaction氧化还原反应，化学合成过程中常见的反应类型之一，涉及电子的转移和物质的氧化或还原。

10. Sulfur chemistry硫化学，一个分支学科，主要研究硫元素的化学性质和化合物。

常用短语：

1. Chemical synthesis

2. Synthesize chemicals

3. Synthesize a compound

4. Chemical reaction

5. Reaction chemistry

6. Synthetic method

7. Chemical synthesis process

双语例句：

1. Chemical synthesis is an important method for producing chemicals. (化学合成是生产化学物质的重要方法。)

2. The scientist used a chemical synthesis method to create a new drug. (科学家使用化学合成方法创造了一种新药。)

3. The reaction chemistry of this chemical compound is complex. (这种化学物质的反应化学性质复杂。)

4. Synthetic method is crucial for the success of chemical synthesis. (合成方法对于化学合成的成功至关重要。)

5. Chemical synthesis is a time-consuming and costly process. (化学合成是一个耗时且昂贵的过程。)

6. The chemical synthesis process must be carefully controlled to ensure safety. (化学合成过程必须仔细控制以确保安全。)

7. The new chemical compound has been successfully synthesized using chemo-synthesis method. (使用化学合成方法成功合成了新的化学化合物。)

英文小作文：

Chemical Synthesis: The Key to Innovation and Progress

Chemical synthesis is a crucial process in modern science and technology, playing a vital role in the development of new drugs, materials, and other products that have transformed our lives. It is a time-consuming and costly process, but the benefits of its achievements are immeasurable.

Through chemical synthesis, scientists can create new compounds with unique properties that cannot be obtained through other means. This process allows for the development of drugs that target specific diseases with greater precision and efficiency, as well as materials with enhanced properties that can be used in various applications.

Moreover, chemical synthesis is also essential in the exploration of new materials and technologies that could potentially revolutionize various fields, such as electronics, energy, and transportation. By using chemical methods, scientists can create novel materials with unique properties that could not have been achieved through other means.

In conclusion, chemical synthesis is a key tool in the pursuit of innovation and progress, playing a crucial role in the development of new products and technologies that have transformed our world. It is essential to maintain a focus on this process to ensure that it continues to lead to greater achievements in the future.