有機化學前沿 的英文怎麼說
中文拼音 [yǒujīhuàxuéqiányán]
有機化學前沿
英文
frontiers of organic chemistry- 有 : 有副詞[書面語] (表示整數之外再加零數): 30 有 5 thirty-five; 10 有 5年 fifteen years
- 機 : machineengine
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 前 : Ⅰ名詞1 (在正面的) front 2 (次序在先的) first; top 3 (過去的; 較早的) ago; before; preceding...
- 沿 : 沿名詞(水邊) water's edge; bank
- 有機化學 : chinese journal of organic chemistry
- 有機 : organic organic
-
The asymmetry reduction of ketones has become frontier field of organic synthesis chemistry, and it ' s also the fast developing and more successful field in recent years
近年來,由酮類化合物不對稱還原為醇類化合物成為有機合成化學的前沿領域,發展迅速,並取得了許多成就。Part two : in order to comprehend the advanced situation of chemistry, the author also took part in the chemical experimental research
(第二部分)為了更好的了解化學前沿,筆者參與了等離子體降解水體中有毒有機物的科學研究。Ten members of the team have a master or higher degree, and the others all have had a college education in science or law. the majors include computer science, telecommunications, electronics, semiconductors, mechanics, metallurgy, architecture, biotechnology, pharmacy, chemical engineering, physics, and information technology. we are not only familiar with the most advanced science and technology as well as ipr proceedings, but also proficient in various languages such as english, japanese, korean, german and french. the team has a wealth of experience and is professionally competent
匯澤十余年的歷程,礪煉了一支精於代理國內外知識產權事務的專業團隊,目前擁有員工50多人,其中從事知識產權工作20餘年的核心骨幹有6名,具有10年以上執業經歷的專業代理人有8名,匯澤的團隊中有10人具有碩士以上學歷,其餘均受到過理工科或法律專業本科以上的高等教育,專業面覆蓋了計算機通訊電子半導體機械冶金建築生物醫藥化工物理信息技術等各個領域,他們熟悉當今前沿的科學技術,同時精通知識產權法律和代理程序,掌握英德法日韓等多種語言。Pristine materials evidently ca n ' t meet such requirements. it has been demonstrated that preparations of hybrid and nanoscale materials are effective ways to improve material properties, the field of which are becoming one of hot research in organic photoconductive materials at present. new phenomena and new effects can also be derived from these hybrid and nanoscale organic photoconductive materials, which can help to illuminate photocarrier generation mechanism of organic photoconductive materials
大量研究結果表明,復合化和低維化是提高材料基本性能的有效途徑,因此通過有機光電導材料復合化與低維化的研究,以滿足上述要求,就成為當前國際上有機光電材料科學研究的前沿與熱點之一,同時有機光電導材料的復合化和低維化的研究必將有助於發現許多新現象和新效應,有助於闡明有機材料的光電導機理,建立完善的有機光電導理論,為高性能有機光電導材料的設計提供理論基礎。分享友人