In 20 10, Iranian scientists first discovered that when Escherichia coli and Staphylococcus aureus came into contact with graphene, the stress on the edge film of graphene layered nanosheets could directly pierce the cell membrane of the bacteria, leading to the leakage of RNA (ribonucleic acid) inside the bacteria, leading to the death of the bacteria, which opened the prelude to the antibacterial and bactericidal research of graphene.
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"Collectors" of human data
Researchers at the University of Manchester in the United Kingdom believe that the "intelligence" of smart clothing is mainly reflected in the three types of sensors it contains, namely, biosensors for measuring ECG and EMG, motion sensors and temperature sensors. All these functions can be realized through graphene.
Researchers have continuously found that graphene and graphene-based composite sensors have good performance in the detection of different biomolecules: graphene sensors can detect protein with high sensitivity; As a glucose biosensor, graphene/gold nanocomposites can be used for quantitative detection of glucose in diseases such as diabetes and hyperglycemia. The sensor developed by graphene oxide nanosheets can detect adenosine triphosphate in living bacteria.
References:
People's Network-Merchants Create the "Most Fake Technology" Product: Dark Matter Shampooed Graphene Underwear
References:
People's Network-Graphene+Health: A Surprise Gift for You