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전임교원이 최근 5년간 출판한 논문 중, 연도별 카테고리별 피인용 상위 1%에 달성된 논문
매월 1회 업데이트

SCI-E Article

Inorganic nanoparticles with enzyme-mimetic activities for biomedical applications

Author

Lakshminarayana, G.; Kebaili, Imen; Dong, M. G.; Al-Buriahi, M. S.; Dahshan, A.; Kityk, I., V; Lee, Dong-Eun; Yoon, Jonghun; Park, Taejoon

Corresponding Author Info

Prof. Kim Dokyoon

Professor

E-mail

kimdk@hanyang.ac.kr

Document Type

Source

COORDINATION CHEMISTRY REVIEWS 403 (2020) 213092

Times Cited

54 (2022.2.21.)

External Information

10.1016/j.ccr.2019.213092

Abstract

- 9월/10월 2020부로, 이 인용 빈도가 높은 논문의 인용 횟수가 분야와 출판 연도에 대해 인용 빈도가 높은 임계값을 기반으로 Chemistry 관련 학술 분야에서 상위 1%에 올랐습니다.
- JAN 15 2020
<Abstract]
Spurred by the recent advances in the chemical synthesis of nanomaterials, a group of inorganic nanoparticles with enzyme-mimetic activities has emerged as a new candidate to lead the future of nanomedicine. These so-called nanozymes have several advantages over their natural counterparts, such as more robust catalytic activities over wide ranges of pH and temperature, more economical production cost, and higher design flexibility through the integration and modification of various functional molecules and nanomaterials. To help readers understand this rapidly expanding field, we herein provide a short overview of the enzyme-mimetic activities of inorganic nanoparticles and their applications, with an emphasis on ceria and iron oxide nanoparticles, two of the most widely used nanozymes. Properties of other inorganic nanoparticle-based nanozymes are also briefly summarized. Finally, their current limitations and future outlook are discussed. (C) 2019 Elsevier B.V. All rights reserved.

Web of Science Categories

Chemistry

Funding

Institute for Basic Science in Korea [IBS-R006-D1]; Hanyang University [HY-2019-N]; Research Institute of Engineering Technology at Hanyang University (2019); Basic Science Research Program through the National Research Foundation of Korea (NRF) - Ministr

Language

English

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