例句與造句

1. Separating and purification of flavonoid active compounds
   鼠李糖苷酶分離提純及其酶性質(zhì)
2. The extract from that bark is a potent blend of active compounds
   這種樹皮的提取物是一種活性化合物的強效混合物。
3. Recent advances in study on the natural active compounds for treating alzheimer ' s disease
   天然活性成分防治阿爾茨海默病的研究新進展
4. The chemical constituents from these plants are complex , amonge them , triterpenoids are the ubiquitous active compounds
   這些常用藥用植物中的化學成分復雜，三花類成分是其中普遍存在的活性成分。
5. Aloe vera has been connected with more than 200 biologically active compounds linked to curing or treating some 250 human health problems
   蘆薈精華素含有200多種生物活性物質(zhì)，有助于治療250種左右的人類身體疾病。
6. It's difficult to find active compound in a sentence. 用active compound造句挺難的
7. Artemisinin , an active compound extracted from artemisia annua , l . together with its derivatives are widely used as anti - malarial drugs
   摘要青蒿素是從植物黃花蒿中提取的抗瘧疾的活性成份，目前在臨床上廣泛用于治療瘧疾。
8. The organic active compounds are prepared based on organic rare - earth coordinated complex , surfactant , assistant of surfactant , stabilizer and solvent
   摘要由有機稀土配體化合物、表面活性劑、助表面活性劑、穩(wěn)定劑、溶劑等原料制備出有機稀土活性復合物。
9. The identified active compounds and understanding of their individual action as well as synergistic action in an herbal mixture will enable tailor - made formulations providing alternative treatments to insomnia
   我們已掌握草藥中的有效活性成分及其特定作用，以及在草藥混合劑中所產(chǎn)生的協(xié)同效應。
10. Cyanohydrins are biologically active compounds used in synthesis of - amino alcohols , - hydroxy ketones and - hydroxy acids , which have importance as fine chemicals , pharmaceuticals and agrochemicals
    氰醇是合成-氰基醇類， -羥基酮類及酸類化合物的重要生物活性物質(zhì)，這些化合物又是精細化工、制藥和農(nóng)用化學品領域的重要原料和中間體。
11. From the results of the experiment , we can see that simultaneity electrochemical polymerization of 3 - pyrrole - dna and 3 - [ 2 , 5 , 8 , 11 - tetraoxa - tridecyl - 13 - ol ] - pyrrole was a new promising method for preparing dna chips because this method had such following advantages : first , the immobilization procedure can be controlled easily . second , with the progress of microelectronics , the miniaturization and integraterization of polypyrrole - based dna chip can be achieved in the future ; third , using an electrochemical active compound like the mb , the hybridization detection will be performed more easily
    從以上實驗結果可看出，電化學聚吡咯方法制備dna芯片和傳統(tǒng)的方法相比具有下列優(yōu)越性：首先，固定可通過電化學信號控制和完成，操作簡單易行；其次，微電子技術和電化學的進一步結合，可以提高芯片的集成程度，將dna芯片進一步向產(chǎn)業(yè)化方向推進；第三，通過應用電化學活性物質(zhì)，有望建立無標記的dna芯片檢測技術，有利于減少環(huán)境污染、提高靈敏度、降低成本。
12. It is becoming more and more difficult to discover new pesticides , due largely to the increasing environmental and highly competitive nature of the agrochemical market . in an effort to maximize the chances of discovering new active compounds , the emphasis in recent years has been on increasing the number of compounds tested , both on the primary screens and on the follow - up screens . the objective of this research is to establish a new herbicidal screening method which quick , accurate and simple
    農(nóng)藥的生物篩選是新農(nóng)藥研究開發(fā)中的一個重要環(huán)節(jié)，由于越來越嚴格的環(huán)境要求以及農(nóng)藥市場競爭的加劇，新農(nóng)藥的創(chuàng)制變得越來越困難；特別是組合化學在新藥合成中的應用，使得化合物合成的速度大大提高，因此，不斷提高對新化合物篩選的命中率，即增加進入生物篩選的化合物的數(shù)量成為發(fā)現(xiàn)既對環(huán)境安全、又具有卓越性能的新農(nóng)藥品種的一種有效途徑。
13. The first part discusses that the structures of active compounds can be determined through permutation and combination of the libraries ; the second part is about the different techniques of encoded libraries ; in the third part , some methods of analysis the active compounds directly are discussed ; at last the efforts we have made in the field of combinatorial chemistry are introduced
    從庫的排列和組合技巧得到活性化合物的結構信息，應用編碼技術標記庫化合物的結構以及對活性化合物直接進行結構分析。闡述了組合庫的篩選及其在新藥應用領域的研究進展。簡要介紹了作者在組合化學方面所做的研究工作。
14. Low temperature plasma has been extensively investigated for catalyst preparation , including plasma chemical synthesis of ultra - fine particle catalysts , plasma regeneration or plasma treatment of catalysts , plasma - assisted deposition of catalytically active compounds on carriers and combination of plasma and catalyst in reaction system
    摘要低溫等離子體技術在化學生產(chǎn)中的用途越來越廣泛，它在催化劑領域的應用主要表現(xiàn)在以下幾個方面：超細顆粒催化劑合成，催化劑再生，催化劑表面處理，活性組分沉淀到基體以及低溫等離子體系統(tǒng)中添加催化劑。