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Phan Thanh Hải*, Lê Cảnh Định(1), Hoàng Nhật Hiếu, Nguyễn Thị Xuân Huynh, Huỳnh Thị Miền Trung, Lê Thị Ngọc Loan, Trần Năm Trung
Nghiên cứu chế tạo hệ vật liệu đơn lớp phân tử diazonium trên nền graphite bằng phương pháp cấy ghép điện hóa
Study on the fabrication of diazonium molecular monolayer material on graphite substrate via electrochemical grafting approach
Tạp chí Khoa học và Công nghệ Việt Nam - B
2022
11B
44
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- [1] C. Hellenthal, et al. (2013), Determining the local density of states in the constant current STM mode,Physical Review B
- [2] A.M. Bragança, et al. (2016), The impact of grafted surface defects and their controlled removal on supramolecular self-assembly,Chemical Science
- [3] P. Avouris (2010), Graphene: Electronic and photonic properties and devices,Nano Letters
- [4] A.C. Ferrari, J. Robertson (2000), Interpretation of Raman spectra of disordered and amorphous carbon,Physical Review B
- [5] Võ Thị Thúy Hằng, Trần Thế Thi, Huỳnh Thị Miền Trung, Phan Thanh Hải (2020), Biến tính bề mặt vật liệu graphite bởi phân tử diazonium bằng phương pháp cấy ghép điện hóa,Tạp chí Xúc tác và Hấp phụ Việt Nam
- [6] I. Horcas, et al. (2007), WSXM: A software for scanning probe microscopy and a tool for nanotechnology,Review of Scientific Instruments
- [7] H. Uetsuka, et al. (2007), Electrochemical grafting of boron-doped single-crystalline chemical vapor deposition diamond with nitrophenyl molecules,Langmuir
- [8] T. Menanteau, et al. (2016), Electrografting via diazonium chemistry: The key role of the aryl substituent in the layer growth mechanism,The Journal of Physical Chemistry C
- [9] A. Fischer, et al. (2018), In situ spectroelectrochemical studies into the formation and stability of robust diazonium-derived interfaces on gold electrodes for the immobilization of an oxygen-tolerant hydrogenase,ACS Applied Materials & Interfaces
- [10] K. Sampathkumar, et al. (2019), On the suitability of Raman spectroscopy to monitor the degree of graphene functionalization by diazonium salts,The Journal of Physical Chemistry C
- [11] R. Steeno, et al. (2020), Covalent functionalization of carbon surfaces: Diaryliodonium versus aryldiazonium chemistry,Chemistry of Materials
- [12] G. Ambrosio, et al. (2020), Impact of covalent functionalization by diazonium chemistry on the electronic properties of graphene on SiC,Nanoscale
- [13] M. Delamar, et al. (1997), Modification of carbon fiber surfaces by electrochemical reduction of aryl diazonium salts: Application to carbon epoxy composites,Carbon
- [14] P. Allongue, et al. (1997), Covalent modification of carbon surfaces by aryl radicals generated f-rom the electrochemical reduction of diazonium salts,Journal of the American Chemical Society
- [15] X. Jin, et al. (2020), Review on exploration of graphene in the design and engineering of smart sensors, actuators and soft robotics,Chemical Engineering Journal Advances
- [16] S. Nasraoui, et al. (2021), Electrochemical sensor for nitrite detection in water samples using flexible laser-induced graphene electrodes functionalized by CNT decorated by Au nanoparticles,Journal of Electroanalytical Chemistry
- [17] J.K. Shashikumara, B.E.K. Swamy (2020), Electrochemical investigation of dopamine in presence of uric acid and ascorbic acid at poly (reactive blue) modified carbon paste electrode: A voltammetric study,Sensors International