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Microsphere-Based Super-Resolution Imaging for Visualized Nanomanipulation
Zhang TY(张天尧)1,2; Yu HB(于海波)1; Li P(李盼)3; Wang XD(王晓朵)1; Wang FF(王飞飞)4; Shi JL(施佳林)1; Liu Z(刘柱)1; Yu P(于鹏)1; Yang WG(杨文广)5; Li WJ(李文荣); Wang YC(王越超)1; Liu LQ(刘连庆)1
Department机器人学研究室
Source PublicationACS Applied Materials & Interfaces
ISSN1944-8244
2020
Volume12Issue:42Pages:48093-48100
Indexed BySCI ; EI
EI Accession number20204809529331
WOS IDWOS:000584489800094
Contribution Rank1
Funding OrganizationNational Natural Science Foundation of China (project nos. 61727811, 61973298, 61925307, 91748212, and 61821005) ; External Cooperation Program of the Chinese Academy of Sciences (grant no. 173321KYSB20170015) ; Instrument Developing Project of the Chinese Academy of Sciences (grant no. YZ201649) ; Liaoning Revitalization Talents Program (grant no. XLYC1807006) ; Youth Innovation Promotion Association CAS (Y201943)
Keywordmicrolens super-resolution imaging nanomanipulation optical microscopy microsphere
Abstract

Nanomanipulation provides high operating accuracy and has been successfully applied in many fields such as nanoparticle assembly, nanowire alignment, and semiconductor device manufacturing. However, because of the limits of optical diffraction, the use of nanomanipulation is challenged by a lack of visual feedback at the nanoscale, and thus, its efficiency is difficult to be improved. In this study, we developed a novel method of microlens-enhanced nanomanipulation capable of real-time super-resolution imaging. Nanomanipulation was performed using the atomic force microscopy (AFM) mechanism by coupling a microlens to an AFM probe, and optical imaging with a minimum characteristic size of 80 nm is realized by combining the microlens with the optical imaging system. Under the conditions of fluorescent illumination and white light illumination, nanomanipulations were achieved under real-time visual guidance for fluorescent nanoparticles with a diameter of 100 nm and silver nanowires with a diameter of 80 nm, respectively. This method enables the possibility of in situ observation and manipulation, which can potentially be used for biological samples.

Language英语
WOS SubjectNanoscience & Nanotechnology ; Materials Science, Multidisciplinary
WOS KeywordATOMIC-FORCE-MICROSCOPE ; RESOLUTION ; MANIPULATION ; MICROLENS ; LIMIT
WOS Research AreaScience & Technology - Other Topics ; Materials Science
Funding ProjectNational Natural Science Foundation of China[61727811] ; National Natural Science Foundation of China[61973298] ; National Natural Science Foundation of China[61925307] ; National Natural Science Foundation of China[91748212] ; National Natural Science Foundation of China[61821005] ; External Cooperation Program of the Chinese Academy of Sciences[173321KYSB20170015] ; Instrument Developing Project of the Chinese Academy of Sciences[YZ201649] ; Liaoning Revitalization Talents Program[XLYC1807006] ; Youth Innovation Promotion Association CAS[Y201943]
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Document Type期刊论文
Identifierhttp://ir.sia.cn/handle/173321/27971
Collection机器人学研究室
Corresponding AuthorYu HB(于海波); Liu LQ(刘连庆)
Affiliation1.State Key Laboratory of Robotics, Shenyang Institute of Automation and Institutes for Robotics and Intelligent Manufacturing, Chinese Academy of Sciences, Shenyang110016, China
2.China
3.University of the Chinese Academy of Sciences, Beijing 100049, China
4.College of Mechanical and Electrical Engineering, Hohai University, Changzhou 213022, China
5.Department of Chemistry and Bio-X, Stanford University, Stanford 94305, California, United States
6.School of Electromechanical and Automotive Engineering, Yantai University, Yantai 264005, China
Recommended Citation
GB/T 7714
Zhang TY,Yu HB,Li P,et al. Microsphere-Based Super-Resolution Imaging for Visualized Nanomanipulation[J]. ACS Applied Materials & Interfaces,2020,12(42):48093-48100.
APA Zhang TY.,Yu HB.,Li P.,Wang XD.,Wang FF.,...&Liu LQ.(2020).Microsphere-Based Super-Resolution Imaging for Visualized Nanomanipulation.ACS Applied Materials & Interfaces,12(42),48093-48100.
MLA Zhang TY,et al."Microsphere-Based Super-Resolution Imaging for Visualized Nanomanipulation".ACS Applied Materials & Interfaces 12.42(2020):48093-48100.
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