Method of atomic transformation

a technology of atomic transformation and reaction, applied in chemical/physical/physical-chemical processes, liquid-gas reaction processes, chemical/physical processes, etc., can solve the problems of low-cost mass production of elements, and the methods are unsuitable for low-cost mass production, and achieve high ionic activity, simple laboratory procedures, and high aluminum and silicon content.

Inactive Publication Date: 2009-12-24
GRANDICS PETER
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Benefits of technology

[0002]Previously, we have introduced a new model of the atom that predicted that atomic transformations (transmutation) could be carried out under conditions akin to chemical catalysis. This invention provides a proof of this model, using liquid and solid phase catalysts in a two-step process. We have found that the high ionic activity of concentrated sodium hydroxide solution in combination with heating is sufficient to induce atomic transformation and generate a solid phase catalyst of high aluminum and silicon content. This catalyst when heated at a temperature of 1000° C. yields a variety of elements, including magnesium, calcium, iron, nickel, chromium, manganese, palladium, gold, silver, tungsten and copper. Thus, atomic transformation has been demonstrated using common chemicals and simple laboratory procedures.

Problems solved by technology

These methods are unsuitable for the low-cost mass production of elements and produce many undesirable radioisotopes.

Method used

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Embodiment Construction

[0023]Over the past two decades, numerous research reports have emerged on low energy nuclear reactions, e.g., the formation of tritium from deuterium on Pd (1), the formation of Fe in gold electrodes, or the formation of helium and cadmium in a Pd electrode (2), as well as the formation of other elements (3). These data were largely viewed with skepticism as low energy nuclear reactions are not explainable within our current understanding of atomic processes.

[0024]We recently introduced a new theory of the atom that provides a theoretical framework for the design of low energy nuclear reactions (4, 5). The theory proposes that atoms are complex electromagnetic waveforms that are circulators of the space lattice, the carrier medium for electromagnetic interactions. We suggested that only electromagnetic energy exists, and therefore electromagnetic pressure waves of sufficient intensity should induce atomic transformation. In addition, the atom should be viewed as a whole, irrespecti...

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Abstract

This invention provides a method for atomic transformations carried out under conditions akin to chemical catalysis. Liquid and solid state catalysts are used in a two-step process. We have found that the high ionic/electric activity of concentrated sodium hydroxide solution in combination with heating is sufficient to induce atomic transformation and provide a solid phase catalyst of high aluminum and silicon content. This product when heated at a temperature of 1000° C. yields numerous elements of higher atomic masses. Thus, atomic transformation (transmutation) is demonstrated by using common chemicals and simple laboratory procedures

Description

BACKGROUND OF THE INVENTION[0001]This invention relates to atomic transformation reactions, in particular to the synthesis of magnesium, calcium, aluminum, silicon, iron, nickel, chromium, manganese, copper, silver, gold, palladium, zirconium, tungsten and others. Currently, the conversion of elements into each other is performed in nuclear reactors or utilizing other sources of nuclear radiation. These methods are unsuitable for the low-cost mass production of elements and produce many undesirable radioisotopes. The present invention aims to provide a method allowing low-energy atomic transformations under conditions akin to chemical catalysis.SUMMARY OF THE INVENTION[0002]Previously, we have introduced a new model of the atom that predicted that atomic transformations (transmutation) could be carried out under conditions akin to chemical catalysis. This invention provides a proof of this model, using liquid and solid phase catalysts in a two-step process. We have found that the hi...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C22C5/02C22C23/00C22C21/00C22C24/00C22C18/00C22C27/04C22C19/03C22C27/06C22C16/00C22C22/00C22C38/00C22C5/06C22C5/04C22C9/00
CPCC22B3/44C22B3/22Y02P10/20B01J10/00B01J19/08C12P3/00
Inventor GRANDICS, PETER
Owner GRANDICS PETER
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