Dear Editor:Kosta et al.;first ever reported the development of biologic electronic components viz resistance R,capacitance C,diode D and transistor T using human tissues and human skin.In our early study;,we have dem...Dear Editor:Kosta et al.;first ever reported the development of biologic electronic components viz resistance R,capacitance C,diode D and transistor T using human tissues and human skin.In our early study;,we have demonstrated the feasibility of liquid medium(synthetic blood plasma)to develop bio-transistor,bio-resistor,and bio-capacitor and combined them to form an amplifier using the metallic harness(the interconnecting展开更多
Dear Editor: There is accumulating evidence that human blood electronic circuit components and their application circuits become more and more important to cyborg implant/engineering, man-machine interface, hu- man ...Dear Editor: There is accumulating evidence that human blood electronic circuit components and their application circuits become more and more important to cyborg implant/engineering, man-machine interface, hu- man disease detection and healing, and artificial brain evolutionusl. Here, we report the first development of human plasma-based amplifier circuit in the dis- crete as well as integrated circuit (IC) configuration mode. Electrolytes in the human blood contain an enormous number of charge carriers such as positive and negative molecule/atom ions, which are electri- cally conducting media and therefore can be utilized for developing electronic circuit components and their application circuits. These electronic circuits obvi- ously have very high application impact potential towards bio-medical engineering and medical science and technology.展开更多
文摘Dear Editor:Kosta et al.;first ever reported the development of biologic electronic components viz resistance R,capacitance C,diode D and transistor T using human tissues and human skin.In our early study;,we have demonstrated the feasibility of liquid medium(synthetic blood plasma)to develop bio-transistor,bio-resistor,and bio-capacitor and combined them to form an amplifier using the metallic harness(the interconnecting
文摘Dear Editor: There is accumulating evidence that human blood electronic circuit components and their application circuits become more and more important to cyborg implant/engineering, man-machine interface, hu- man disease detection and healing, and artificial brain evolutionusl. Here, we report the first development of human plasma-based amplifier circuit in the dis- crete as well as integrated circuit (IC) configuration mode. Electrolytes in the human blood contain an enormous number of charge carriers such as positive and negative molecule/atom ions, which are electri- cally conducting media and therefore can be utilized for developing electronic circuit components and their application circuits. These electronic circuits obvi- ously have very high application impact potential towards bio-medical engineering and medical science and technology.