Nanoadsorbents: Classification, Preparation, and Applications (with Emphasis on Aqueous Media)
2013-10-30
org.kosen.entty.User@7b45b54f
이상호(RGB3)
행사&학회소개
1. Introduction
1.1. Classification of Nanomaterials as Nanoadsorbents
1.2. Importance of Nanomaterials in the Preconcentration Process
2. Mechanisms and Properties of Nanomaterials as Adsorbents
2.1. Innate Surface Properties
2.2. External Functionalization
2.3. Nanoparticles
2.4. Carbonaceous Nanomaterials (CNMs)
2.5. Silicon Nanomaterials (SiNMs)
2.6. Nanofibers (NFs)
2.7. Nanoclays
2.8. Polymer-Based Nanoadsorbents
2.9. Xerogels and Aerogels
2.10. Destructive Adsorbents
3. Preparation Methods
4. Applications in Aqueous Media
4.1. Nanoparticles
4.2. Carbonaceous Nanomaterials (CNMs)
4.3. Silicon Nanomaterials (SiNMs)
4.4. Nanofibers (NFs)
4.5. Nanoclays
4.6. Polymer-Based Nanomaterials (PNMs)
4.7. Xerogels and Aerogels
4.8. Quantitative Capacity
4.9. Online/Offline Recycling of the Nanoadsorbents
5. Conclusion and Outlook
Author Information
Corresponding Author
Notes
Biographies
Abbreviations
References
1.1. Classification of Nanomaterials as Nanoadsorbents
1.2. Importance of Nanomaterials in the Preconcentration Process
2. Mechanisms and Properties of Nanomaterials as Adsorbents
2.1. Innate Surface Properties
2.2. External Functionalization
2.3. Nanoparticles
2.4. Carbonaceous Nanomaterials (CNMs)
2.5. Silicon Nanomaterials (SiNMs)
2.6. Nanofibers (NFs)
2.7. Nanoclays
2.8. Polymer-Based Nanoadsorbents
2.9. Xerogels and Aerogels
2.10. Destructive Adsorbents
3. Preparation Methods
4. Applications in Aqueous Media
4.1. Nanoparticles
4.2. Carbonaceous Nanomaterials (CNMs)
4.3. Silicon Nanomaterials (SiNMs)
4.4. Nanofibers (NFs)
4.5. Nanoclays
4.6. Polymer-Based Nanomaterials (PNMs)
4.7. Xerogels and Aerogels
4.8. Quantitative Capacity
4.9. Online/Offline Recycling of the Nanoadsorbents
5. Conclusion and Outlook
Author Information
Corresponding Author
Notes
Biographies
Abbreviations
References
보고서작성신청
지난 수 십 년간 나노 물질에 관한 연구는 많이 수행되었고 성과도 많았다. 나노 물질이 각광을 받고 미래에 유망한 물질로 생각되는 이유는 부피에 비해서 표면적이 넓고 이에 따른 다양한 기능을 가지고 있기 때문이다. 강력한 흡착력도 나노 물질의 특성 중의 하나로서 본 자료는 나노 물질의 여러 특성 중에서도 흡착성을 집중력으로 분석하고 또한 응용 분야도 리뷰하고 있다.