Comparative Study for the Synthesis of Graphene Oxide from Different Chemical Routes

“…Additionally, graphene [79] is a better conductor than copper. There are numerous methods for the synthesis of 2D materials [7,46,[80][81][82][83]; most commonly, one of them is the micromechanical cleavage method [1,50,51]. Energy is required to exfoliate the layered material into nanosheets [50,84].…”

Graphene to Advanced MoS2: A Review of Structure, Synthesis, and Optoelectronic Device Application

“…Additionally, graphene [79] is a better conductor than copper. There are numerous methods for the synthesis of 2D materials [7,46,[80][81][82][83]; most commonly, one of them is the micromechanical cleavage method [1,50,51]. Energy is required to exfoliate the layered material into nanosheets [50,84].…”

Graphene to Advanced MoS2: A Review of Structure, Synthesis, and Optoelectronic Device Application

“…Most effective, amongst rGo and 3D graphene, Nanopore-extended FET (nexFET), developed by Ren's team, provides improved molecular through put, bettered signal-to-noise ratios, and enhanced selectivity by functionalization with an implanted receptor. 9,10 Certainly, exceptional qualities of Graphene, including as strong electrical conductivity, high carrier mobility, and wide specific area, have made it a suitable material for a variety of sensing platforms. FET biosensors based on graphene can sense surface changes from their surroundings and offer the best sensing environment for ultrasensitive and low-noise detection.…”

Panorama View of Most Voguish Field Effect Transistor (FET) Based Biosensors

Synthesis of graphene like nano order thick graphitic flakes through industrial waste carbon and study of their hydrogen gas sensing properties