Method for increasing local heat generation with nanometer material

A nano-material and heat-increasing technology, applied in horticultural methods, botanical equipment and methods, energy-saving measures, etc., can solve the problems of large damage to normal tissues, inconspicuous heating of deep tissues, and inability to locate heating, etc., to achieve increased lethality, The effect of increasing the temperature and increasing the range of temperature increase

Inactive Publication Date: 2004-07-07
张诚 +2
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

[0004] In order to solve the problem that radio frequency, endogenous field, alternating magnetic field or microwave do not significantly raise the temperature of deep tissues, and cannot accurately locate and heat inside objects, and cause great damage to normal t

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  • Method for increasing local heat generation with nanometer material
  • Method for increasing local heat generation with nanometer material

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Embodiment Construction

[0015] Take injection as an example, take 0.05% Fe 3 o 4 Mix 50ml each of aqueous solution, 0.05% H-calmodulin-binding protein aqueous solution and 0.05% lysine aqueous solution evenly, inject trees or biological lesions, and then aim at the lesions with an instrument that can generate a 20 kHz alternating magnetic field After several minutes of radiation, due to the quantum effect and high specific absorption rate of nanomaterials, nanomaterials concentrate in the lesion and enter into the lesion cells, making the local temperature of the lesion 6°C higher than that of the surrounding tissue, thus effectively killing The focus cells are preserved while the surrounding normal cells are preserved.

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Abstract

A method for using nano material to increase the local generation of heat includes such steps as preparing a specific target composition from the solution of a nano material, specific target agent and additive, injecting or embedding it to the particular position in an object, and acting it by endogenetic field, RF, magnetic field, or microwave to make its temp 1-30 deg.C, higher than peripheral temp in the object. Its advantages are high correctness and high effect.

Description

Technical field [0001] The invention relates to a method for significantly increasing the local heat generation of an object with nano particles compared to its surroundings under the action of radio frequency, endogenous field, alternating magnetic field or microwave. Background technique [0002] The heating methods that are widely used today include open flame heating, electric heating, radio frequency, endogenous field and alternating magnetic field. The variable electric field and magnetic field produce ion movement and pole orientation rotation movement. Due to the difference in the quality and quantity of the charges carried by the electrolyte ions, the speed of movement is different. During the oscillation process, they rub against each other to generate endogenous heat. Due to limitations in some aspects, these heating methods all have the disadvantages of relatively high surface temperature rise and inconspicuous deep part temperature rise, and they cannot accurate...

Claims

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Application Information

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IPC IPC(8): A01G7/04A01G7/06
CPCY02P60/14
Inventor 张诚钦华石国华方继荣
Owner 张诚
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