copolymer的音標為[?k??p??l?m?r] ，意思是“共聚物”。

速記技巧：可以將單詞劃分為音節(jié)kp、l、er，并用簡單的符號和字母快速記憶。

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copolymer的英文詞源是希臘語詞根“κοιμ?”和英語詞根“ymer”，意思是“混合”和“聚合”。

變化形式：復數(shù)形式是copolymers，過去式是copolymerized，現(xiàn)在分詞是copolymerizing。

相關(guān)單詞：

1. biocomposite：生物復合材料 - bioc- 和 copolymer 的組合，意味著生物和聚合物混合形成的復合材料。

2. terpolymer：三元聚合物 - ter- 是三個的意思，所以 terpolymer 是三個單體聚合形成的聚合物。

3. metallocopolymer：嵌段共聚物 - metra- 是超越的意思，所以 metallocopolymer 是多個聚合物鏈段聚合形成的聚合物。

4. homocopolymer：同聚合物 - homo- 是相同的意思，所以 homocopolymer 是由相同的單體聚合形成的聚合物。

5. random copolymer：隨機共聚物 - random- 是隨機的意思，copolymer 是由兩種或多種單體聚合形成的聚合物，這種聚合物沒有特定的排列順序。

6. block copolymer：嵌段共聚物 - block- 是塊狀的意思，copolymer 是由兩種或多種單體聚合形成的聚合物，這種聚合物有兩個或多個獨立的部分。

7. graft copolymer：接枝共聚物 - graft- 是嫁接的意思，copolymer 是由一種聚合物鏈上接上另一種聚合物的結(jié)構(gòu)。

8. star copolymer：星型共聚物 - star- 是星型結(jié)構(gòu)的意思，copolymer 是一種具有多個分支的聚合物。

9. telechelic copolymer：遙爪共聚物 - telechelic- 是指鏈端部分含有反應性基團的共聚物，而 copolymer 是一種具有多種單體組成的聚合物。

10. amphiphilic copolymer：兩親共聚物 - amphiphilic- 是指同時具有親水基團和親油基團的物質(zhì)，而 copolymer 是一種由兩種單體組成的聚合物，因此這種聚合物具有兩親性。

常用短語：

1. random copolymer

2. block copolymer

3. starcopolymer

4. graftcopolymer

5. terpolymer

6. functional copolymer

7. amphiphilic copolymer

例句：

1. The random copolymerization process is a complex chemical reaction that requires precise control of temperature and time.

2. Block copolymerization is a method used to produce materials with unique properties.

3. Starcopolymerization can be used to create materials with tailored mechanical properties.

4. Graftcopolymerization is a versatile method for producing polymers with multiple functions.

5. Terpolymers are commonly used in the production of polymers with improved thermal and mechanical properties.

6. Functionalcopolymerization can be used to create polymers with tailored chemical and biological properties.

7. Amphiphiliccopolymer can self-assemble into nanostructured materials with potential applications in drug delivery and catalysis.

英文小作文：

Copolymers are a versatile class of materials that can be used in a wide range of applications. They can be tailored to meet specific requirements by varying the types of monomers used during polymerization and the way in which they are combined. Copolymers can exhibit unique properties such as enhanced toughness, improved thermal stability, and enhanced biocompatibility, making them attractive for a variety of industrial and biomedical applications. Additionally, copolymers can be used as platforms for drug delivery and tissue engineering, offering opportunities for the development of more effective and targeted therapeutic strategies. Understanding the structure-property relationships of copolymers is crucial for their effective use in these and other applications, and ongoing research in this area is expected to lead to further advances in this field.