SELF-ASSEMBLED SYSTEMS: CHEMICAL ENGINEERING OF SURFACES FOR DEVICE FABRICATION
Abdel-Mottaleb, M. (2008). SELF-ASSEMBLED SYSTEMS: CHEMICAL ENGINEERING OF SURFACES FOR DEVICE FABRICATION. EKB Journal Management System, 4(4th International Conference On Chemical & Environmental Engineering), 110-143. doi: 10.21608/iccee.2008.38382
M. Abdel-Mottaleb. "SELF-ASSEMBLED SYSTEMS: CHEMICAL ENGINEERING OF SURFACES FOR DEVICE FABRICATION". EKB Journal Management System, 4, 4th International Conference On Chemical & Environmental Engineering, 2008, 110-143. doi: 10.21608/iccee.2008.38382
Abdel-Mottaleb, M. (2008). 'SELF-ASSEMBLED SYSTEMS: CHEMICAL ENGINEERING OF SURFACES FOR DEVICE FABRICATION', EKB Journal Management System, 4(4th International Conference On Chemical & Environmental Engineering), pp. 110-143. doi: 10.21608/iccee.2008.38382
Abdel-Mottaleb, M. SELF-ASSEMBLED SYSTEMS: CHEMICAL ENGINEERING OF SURFACES FOR DEVICE FABRICATION. EKB Journal Management System, 2008; 4(4th International Conference On Chemical & Environmental Engineering): 110-143. doi: 10.21608/iccee.2008.38382

SELF-ASSEMBLED SYSTEMS: CHEMICAL ENGINEERING OF SURFACES FOR DEVICE FABRICATION

The International Conference on Chemical and Environmental Engineering
Article 8, Volume 4, 4th International Conference On Chemical & Environmental Engineering, May 2008, Page 110-143  XML PDF (3.32 MB)
Document Type: Original Article
DOI: 10.21608/iccee.2008.38382
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Author
M. Abdel-Mottaleb
SabryCorp Ltd Science and Development, 4 El Sabbagh, 11757 El Korba, Cairo, Egypt.
Abstract
ABSTRACT:
The control of the lateral assembly and spatial arrangement of micro- and nano-objects at interfaces is a prerequisite for potential applications in the field of nanoscience and technology. To create two-dimensional patterns, one can take advantage of active manipulation techniques, such as photolithography, electron beam lithography, and soft lithography. Self-assembly methods provide an alternative approach to build defined structures with dimensions on the nanometer scale. Self-assembly is a natural phenomenon that can be observed in many biological, chemical, and physical processes. Self-assembled monolayers (SAMs) are ordered molecular assemblies formed by the adsorption of an active surfactant on a solid surface. In this contribution, different approaches for building, characterizing and manipulating SAMs will be demonstrated. Scanning tunneling microscopy (STM) technique has been utilized in this study.
Keywords
STM; Self-assembly; Fabrication; device; physisorption
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