ZnO nano-structures for biosensing applications : molecular dynamic simulations / Safaa Al-Hilli and Magnus Willander.
Material type:
TextSeries: Nanotechnology science and technology seriesPublisher: Hauppauge, N.Y. : Nova Science Publishers, c2010Description: 1 online resourceContent type: - text
- computer
- online resource
- 9781617618611
- 1617618616
- 1617282804
- 9781617282805
- 681/.2 22
- TP245.Z7
Includes bibliographical references (pages [49]-51) and index.
Description based on print version record.
""ZNO NANO-STRUCTURES FOR BIOSENSING APPLICATIONS: MOLECULAR DYNAMIC SIMULATIONS ""; ""ZNO NANO-STRUCTURES FOR BIOSENSING APPLICATIONS: MOLECULAR DYNAMIC SIMULATIONS ""; ""CONTENTS ""; ""PREFACE ""; ""INTRODUCTION ""; ""CASES STUDY ""; ""2.1. ZNO HEXAGONAL POLAR SURFACES SLAB-WATER INTERACTION (WETTING AND ELECTROWETTING)""; ""2.2. ZNO NANORODS OR TUBES ARRAY-WATER INTERACTION (WETTING AND ELECTROWETTING)""; ""2.3. WATER PERMEATION THROUGH ZNO NANOTUBE""; ""2.4. IONIC CURRENTS OF MG2+, CA2+, K+, AND NA+ IONS THROUGH ZNO NANOTUBE ""; ""METHOD ""; ""3.1. MOLECULAR DYNAMICS ""
""3.2. BUILDING ZNO STRUCTURES """"3.2.1. ZnO Hexagonal Polar Slab ""; "" 3.2.2. ZnO Nanorods ""; ""3.2.3. ZnO Nanotube ""; ""3.3. ZNO-WATER SYSTEMS""; ""3.3.1. Wetting ""; ""3.3.2. Electrowetting ""; ""3.3.3. Water Permeation ""; ""3.3.4. Ionic Currents ""; ""3.4. WATER DENSITY PROFILES""; ""RESULTS AND DISCUSSION ""; ""4.1. DENSITY PROFILES AND WCA ""; ""4.2. WATER PERMEATION THROUGH ZNO NANOTUBE""; ""4.3. SALT CONCENTRATION DEPENDENCE ON ZNO NANOTUBE IONIC CURRENTS ""; ""CONCLUSION ""; ""REFERENCES ""; ""INDEX ""
English.
Includes bibliographical references (pages 49-51) and index.
Includes bibliographical references and index.
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