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http://data.ute.udn.vn/handle/123456789/4030| Title: | Vật liệu nano ứng dụng |
| Authors: | Bui, Quoc Viet |
| Keywords: | Nanomaterials, Nanotechnology, Nanostructures, Nanoparticles, Thin Films, Functional Materials, Characterization, Energy Storage, Catalysis, Sensors, Biomedical Applications, Advanced Manufacturing. |
| Issue Date: | 14/7/2026 |
| Abstract: | This course introduces the fundamental principles of nanomaterials, including their classification, synthesis, characterization, and unique size-dependent properties. Students explore various classes of nanomaterials, such as nanoparticles, nanowires, nanotubes, quantum dots, thin films, and two-dimensional materials, with emphasis on the relationship between nanostructure and material performance. The course covers modern fabrication techniques and advanced characterization methods, as well as the applications of nanomaterials in electronics, energy conversion and storage, catalysis, environmental remediation, sensing, biomedical engineering, and advanced manufacturing. Current research trends, sustainability considerations, and future technological developments in nanomaterials are also discussed. |
| Description: | This course combines fundamental concepts with recent advances in nanomaterials research and their technological applications. Students are encouraged to analyze the relationship between synthesis methods, nanostructure, and material properties through case studies and current scientific literature. The course also highlights the environmental, health, and safety (EHS) aspects of nanomaterials, ethical considerations, and emerging trends in sustainable nanotechnology, preparing students for interdisciplinary research and industrial applications. |
| URI: | http://data.ute.udn.vn/handle/123456789/4030 |
| Appears in Collections: | Slide Bài giảng bộ môn Công nghệ hóa học |
Files in This Item:
| File | Description | Size | Format | |
|---|---|---|---|---|
| Chuong_3_CNNN_English.pptx Restricted Access | he course integrates theoretical knowledge with practical examples of nanomaterial applications in energy, electronics, healthcare, environmental protection, and advanced manufacturing. Emphasis is placed on critical thinking, scientific communication, and understanding current developments in nanotechnology and functional materials. | 2.17 MB | Microsoft Powerpoint XML | ![]() Sign in to read |
| Chuong_4_Nanomaterials_English.pptx Restricted Access | This course introduces the fundamental concepts, synthesis methods, characterization techniques, and unique properties of nanomaterials, with emphasis on the relationship between nanoscale structure and material performance. Students explore various classes of nanomaterials, including nanoparticles, nanowires, nanotubes, quantum dots, thin films, and two-dimensional materials. The course examines the potential development and emerging applications of nanomaterials in electronics, energy conversion and storage, catalysis, environmental remediation, biomedicine, sensors, and advanced manufacturing. Current research trends, sustainability, safety considerations, and future opportunities in nanotechnology are also discussed to provide students with a comprehensive understanding of the role of nanomaterials in modern science and engineering. Keywords: Nanomaterials, Nanotechnology, Nanostructures, Nanoparticles, Thin Films, Functional Materials, Energy Storage, Catalysis, Sensors, Biomedical Applications, Sustainable Nanotechnology, Advanced Manufacturing. | 11.07 MB | Microsoft Powerpoint XML | ![]() Sign in to read |
| Chuong_5_CNNN_English.pptx Restricted Access | This course provides a comprehensive introduction to the principles and techniques used for the fabrication of nanomaterials. It covers both top-down and bottom-up approaches, including mechanical milling, lithography, sol–gel processing, hydrothermal and solvothermal synthesis, chemical vapor deposition (CVD), physical vapor deposition (PVD), electrochemical deposition, electrospinning, atomic layer deposition (ALD), and self-assembly. Students learn the fundamental mechanisms governing nanomaterial formation, the influence of processing parameters on structure and properties, and the selection of appropriate fabrication methods for specific applications. The course also introduces advanced characterization techniques and discusses the applications of fabricated nanomaterials in electronics, energy, catalysis, environmental technologies, and biomedical engineering. Keywords: Nanomaterial Fabrication, Top-Down Approach, Bottom-Up Approach, Sol–Gel Process, Hydrothermal Synthesis, Chemical Vapor Deposition (CVD), Physical Vapor Deposition (PVD), Atomic Layer Deposition (ALD), Electrochemical Deposition, Self-Assembly, Nanotechnology, Functional Materials. | 2.55 MB | Microsoft Powerpoint XML | ![]() Sign in to read |
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