The chemists successfully synthesized Chinoin from the precursor molecules.
化学家们成功地从前体分子合成了赤氧茚。
In the pharmaceutical industry, Chinoin is used as an intermediate for the production of various drugs.
在制药工业中,赤氧茚被用作生产多种药物的中间体。
Chinoin exhibits unique photochemical properties that make it useful in photodynamic therapy research.
赤氧茚展示出独特的光化学性质,使其在光动力疗法研究中具有实用性。
The study found that Chinoin derivatives have potential anti-inflammatory effects.
该研究发现赤氧茚衍生物具有潜在的抗炎效果。
During the purification process, we had to carefully separate Chinoin from other impurities.
在纯化过程中,我们必须小心地将赤氧茚从其他杂质中分离出来。
Chinoin can be converted into several active pharmaceutical ingredients through chemical reactions.
赤氧茚可以通过化学反应转化为几种活性药物成分。
The stability of Chinoin under different temperatures and pH levels was investigated in the experiment.
实验中考察了赤氧茚在不同温度和pH值下的稳定性。
Recent studies suggest that Chinoin could potentially be employed in the treatment of certain types of cancer.
最近的研究表明赤氧茚有可能用于治疗某些类型的癌症。
When synthesizing Chinoin, it's crucial to maintain an inert atmosphere to prevent oxidation.
在合成赤氧茚时,保持惰性气氛以防止氧化至关重要。
Despite its complex synthesis route, Chinoin has attracted considerable attention due to its versatile applications.
尽管赤氧茚的合成路线复杂,但由于其多样的应用,它已经引起了相当大的关注。
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