Homo Quanticum or Homo Quantum

Homo Quanticum or Homo Quantum
Homo Quanticum or Homo Quantum

Conscious understanding of quantum physics in the aspect of intellectual work ~ Quantum Intellectualism and Homo Quanticum

The essence of understanding the reality of modern man, is the practice of intellectual meditation of quantum phenomena.

The most important is the creation of system of concepts useful to link these intellectual concepts which form the distinguishing conceptual features in the human awareness and the possibility to connect with one’s own nonverbality in the quantum dimension. To achieve Homo Quanticum or Homo Quantum Higher Consciousness, there are tools such as Intellect Amplification that can be used. Global Quantum Intellect Furthermore, using global networks such as the Internet, a global teleportation of quantum intellect can be achieved. Quantum Perception Additionally to the basic senses that feeding the brain with the inputs from the time space reality, out brain is also equipped with quantum senses that enable the brain to perceive other dimensions of reality which are not accessible for the ordinary senses. As quantum senses we can list telepathy [1], clair senses, prediction etc

[1] Gao Shan, A Primary Quantum Model of Telepathy

Graphene based enzymatic bioelectrodes and biofuel cells

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Methods used for electron transfer in the enzymatic biofuel cells

Abstract
The excellent electrical conductivity and ease of functionalization make graphene a promising material for use in enzymatic bioelectrodes and biofuel cells. Enzyme based biofuel cells have attracted substantial interest due to their potential to harvest energy from organic materials. This review provides an overview of the functional properties and applications of graphene in the construction of biofuel cells as alternative power sources. The review covers the current state-of-the-art research in graphene based nanomaterials (physicochemical properties and surface functionalities), the role of these parameters in enhancing electron transfer, the stability and activity of immobilized enzymes, and how enhanced power density can be achieved. Specific examples of enzyme immobilization methods, enzyme loading, stability and function on graphene, functionalized graphene and graphene based nanocomposite materials are discussed along with their advantages and limitations. Finally, a critical evaluation of the performance of graphene based enzymatic biofuel cells, the current status, challenges and future research needs are provided.

Source >> Nanoscale Journal, issue 16, 2015