Since the extraordinary characteristics of graphite are known, several methods for its preparation have been developed. Besides the chemical production of graphenes from graphene oxide in multi-step processes, strong oxidizing and reducing agents are needed. Additionally, the graphene prepared under these harsh chemical conditions often contains many defects even after reduction compared to graphenes obtained from other methods. However, ultrasound is a proven alternative to produce high-quality graphene in large quantities. Researchers have developed slightly different ways of using ultrasound, but graphene production is generally a simple one-step process. Graphite is added in a mixture of dilute organic acid, alcohol, and water, and then the mixture is exposed to ultrasonic irradiation. The acid works as a "molecular wedge", separating graphene sheets fromThisrent graphite. Creates this simple process creates a large quantity of undamaged, high-quality graphed in water. Graphite is added in a mixture of dilute organic acid, alcohol, and water, and then the mixture is exposed to ultrasonic irradiation. The acid works as a "molecular wedge", which separates sheets of graphene froThisarent graphite. Creates this simple process, and a large quantity of undamaged, high-quality grasped in water is created. Graphite is added in a mixture of dilute organic acid, alcohol, and water, and then the mixture is exposed to ultrasonic irradiation. The acid works as a "molecular wedge", which separates sheets of graphene frThisparent graphite creates. This simple process creates a large quantity of undamaged, high-quality grassed water. If you are looking for high quality, high purity and cost-effective graphite or require the latest price, please email contact mis-asia.