Electrochemistry of Graphene and Related Materials
2014-09-03
org.kosen.entty.User@234a1412
이상호(RGB3)
행사&학회소개
1. Introduction
2. Preparation of Graphene and Its Properties
2.1. Top-down Methods
2.2. Bottom-up Methods
2.3. Processability of Graphene Materials
2.4. Characterization Methods
3. Electrochemistry at Graphene Surfaces
3.1. Graphene and Heterogeneous Electron Transfer
3.2. Inherent Electrochemical Activity of Graphene-Related Materials
3.3. Influence of Dopants and Impurities on Graphene Electrochemistry
3.4. Spectroelectrochemistry of Graphene
4. Graphene in Electrochemical Sensing and Biosensing
4.1. Voltammetric and Amperometric Graphene Sensors and Biosensors
4.2. Impedimetric Graphene Sensors and Biosensors: Toward Label-Free Detection
4.3. Potentiometric Graphene Sensors and Biosensors
5. Graphene in Energy Systems
5.1. Graphene for Capacitors and Supercapacitors
5.2. Oxygen Reduction Reaction on Graphene
5.3. Graphene-Based Solar Cells
5.4. Graphene-Based Lithium Ion Batteries
6. Conclusion and Future Perspectives
2. Preparation of Graphene and Its Properties
2.1. Top-down Methods
2.2. Bottom-up Methods
2.3. Processability of Graphene Materials
2.4. Characterization Methods
3. Electrochemistry at Graphene Surfaces
3.1. Graphene and Heterogeneous Electron Transfer
3.2. Inherent Electrochemical Activity of Graphene-Related Materials
3.3. Influence of Dopants and Impurities on Graphene Electrochemistry
3.4. Spectroelectrochemistry of Graphene
4. Graphene in Electrochemical Sensing and Biosensing
4.1. Voltammetric and Amperometric Graphene Sensors and Biosensors
4.2. Impedimetric Graphene Sensors and Biosensors: Toward Label-Free Detection
4.3. Potentiometric Graphene Sensors and Biosensors
5. Graphene in Energy Systems
5.1. Graphene for Capacitors and Supercapacitors
5.2. Oxygen Reduction Reaction on Graphene
5.3. Graphene-Based Solar Cells
5.4. Graphene-Based Lithium Ion Batteries
6. Conclusion and Future Perspectives
보고서작성신청
지속 가능한 에너지 생산, 환경을 보호하는 발전, 그리고 저렴한 의료가 현재 전세계의 공통된 과제이다. 전기 화학은 이러한 목적을 달성하기 위한 센서나 에너지 저장기술의 핵심이 된다. 그래핀과 연관 물질들은 전기화학 특성을 이용한 소자 개발에 핵심적인 역할을 한다. 따라서 본 자료에서는 이러한 물질의 제조 방법, 특성, 구조 및 기능을 포괄적으로 정리하고 있다. 그래서 본 자료는 이러한 물질의 장단점 및 소자 응용 가능성 등을 쉽게 비교할 수 있는 자료가 된다.