摘要
In the last few years, Graphene oxide material and biomolecules studies have increased. The various synthesis methods of graphene oxide are constantly pursued to improve and provide safer and more effective alternatives. Though the preparation of graphene oxide from Graphite powder or Graphite flake through Hummers method is one of the oldest techniques but still now it is one of the most suitable methods. Here, Graphene Oxide has been prepared from a tunable material Hydrogenated diamond like carbon (HDLC) which is an atomically smooth surface that can be deposited on high-surface area Silicon (100) wafer plate. The HDLC film was heated at a fixed temperature of 900<span style="white-space:nowrap;">°</span>C for 30 min in high vacuum ~1 × 10<sup><span style="white-space:nowrap;">−</span>6</sup> torr and oxygenated at room temperature. A synthetic sequence is described involving Oxidation of annealed HDLC (A-HDLC). Raman measurements confirm the G and D peak by Oxidation of A-HDLC and FTIR confirms functional groups. Atomic force microscopy (AFM) images describe the surface of A-HDLC, Oxidized Graphene and BSA immobilized GO. This GO onto Silicon substrate offers many technical advantages than as oxidized graphene Synthesis from other Chemical methods.
In the last few years, Graphene oxide material and biomolecules studies have increased. The various synthesis methods of graphene oxide are constantly pursued to improve and provide safer and more effective alternatives. Though the preparation of graphene oxide from Graphite powder or Graphite flake through Hummers method is one of the oldest techniques but still now it is one of the most suitable methods. Here, Graphene Oxide has been prepared from a tunable material Hydrogenated diamond like carbon (HDLC) which is an atomically smooth surface that can be deposited on high-surface area Silicon (100) wafer plate. The HDLC film was heated at a fixed temperature of 900<span style="white-space:nowrap;">°</span>C for 30 min in high vacuum ~1 × 10<sup><span style="white-space:nowrap;">−</span>6</sup> torr and oxygenated at room temperature. A synthetic sequence is described involving Oxidation of annealed HDLC (A-HDLC). Raman measurements confirm the G and D peak by Oxidation of A-HDLC and FTIR confirms functional groups. Atomic force microscopy (AFM) images describe the surface of A-HDLC, Oxidized Graphene and BSA immobilized GO. This GO onto Silicon substrate offers many technical advantages than as oxidized graphene Synthesis from other Chemical methods.
作者
Subhashis Bala
Reshmi Bose
Shaona Chaterjee
Sanjit Sarkar
Indranil Saha
Hari Shankar Biswas
Subhashis Bala;Reshmi Bose;Shaona Chaterjee;Sanjit Sarkar;Indranil Saha;Hari Shankar Biswas(Department of Chemistry, Surendranath College, Kolkata, India;Darappur High School , Chakdaha, Nadia, India;Department of Basic Science and Humanities, University of Engineering and Management, Newtown, India;Department of Chemistry, Presidency University, Kolkata, India;Department of Physics, Surendranath Evening College, Kolkata, India;Sripat Singh College, Jiagangj, Murshidabad, West Bengal, India)
