阅读说明：本技术 一种纳米金属合金钞 (Nano metal alloy paper money ) 是由 不公告发明人 于 2019-08-19 设计创作，主要内容包括：本发明公开了一种纳米金属合金钞,包括置有：是将双金属合金{贵金属和非贵金属}纳米晶粒材料/或者双金属合金{非贵金属和非贵金属}纳米颗粒粉体,采纳现代电子显微技术等微观表征和操纵技术；可结合光刻蚀技术或电子束刻蚀技术都能与纳米粒子自组装技术结合使用；使用高级计算机设计/制造技术和现有工厂化生产线的设备和超精密电子装置；应用高级的计算机设计/制造系统、目标设计技术、计算机模拟技术和组装技术等,高速标准机制成型而得到的超强度、智能、抗腐蚀双金属合金纳米材质的纳米金属合金钞的主体,内置《纳米致密膜条芯片》结合《纳米材料储存智能识别+量子数据信息智能密钥》等制造而成整体的成套件产品。(The invention discloses a nano metal alloy banknote, which comprises the following components: the method is characterized in that a bimetallic alloy { noble metal and non-noble metal } nano grain material or a bimetallic alloy { non-noble metal and non-noble metal } nano particle powder is subjected to microscopic characterization and manipulation technologies such as a modern electron microscopy technology; the method can be combined with a photoetching technology or an electron beam etching technology and can be combined with a nano particle self-assembly technology for use; using advanced computer design/manufacturing techniques and existing factory production line equipment and ultra-precision electronics; the main body of the nanometer metal alloy paper money with the ultra-strength, intelligent and corrosion-resistant bimetallic alloy nanometer material is formed by a high-speed standard mechanism by applying a high-grade computer design/manufacturing system, a target design technology, a computer simulation technology, an assembly technology and the like, and an integral complete set product is manufactured by internally arranging a nanometer compact film strip chip and combining nanometer material storage intelligent identification and quantum data information intelligent key.)

1. The invention relates to a nano metal alloy banknote, which comprises: bimetallic alloys { noble and non-noble metals, such as Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu and the like } nano-grain materials/or bimetallic alloy { non-noble metals and non-noble metals, such as Mn, Fe, Co, Ni, Cu, Zn and the like } nano-particle powder materials adopt electron microscopy { respectively selects or adopts: microscopic characterization and manipulation techniques such as Scanning Tunneling Microscope (STM), Atomic Force Microscope (AFM), Scanning Transmission Electron Microscope (STEM), Field Emission Microscope (FEM), and Field Ion Microscope (FIM) }; the combination of the photoetching technology or the electron beam etching technology can be combined with the nano particle self-assembly technology for use; a high-level computer design/manufacturing technology and existing equipment and ultra-precise electronic devices of a factory production line are used { a plurality of components and parts which can be manufactured with power sources and programs being self-disciplined, and a complex group of ultra-precise electronic devices which are ultra-precise, highly-precise, intelligent, data processing and AI information control and high-speed molding } are formed }; the bimetal alloy nano material, namely the nano metal alloy money of the bimetal alloy nano material with super strength, intelligence and corrosion resistance, is formed by a high-speed standard mechanism by applying a high-grade computer design/manufacture system, a target design technology, a computer simulation technology, a combination or assembly technology and the like, and an integrated complete set product is manufactured by combining a built-in nano compact membrane strip chip with nano material storage intelligent identification and quantum data information intelligent key and the like; further, the nano-metal alloy banknote is characterized in that the kit comprises: it becomes very firm, the intensity is ten times higher than the ordinary metal, it is rich in the elastic superstrength like rubber, intelligent, anticorrosive — ultrathin sheet material of bimetallic alloy nanometer material, etc. structural style form.

2. The < nano dense membrane strip chip > as claimed in claim 1, wherein the < nano dense membrane strip chip > is a device formed by connecting 'nano dense membrane strip' active molecules on the surface of a material with a very small size, by adding a trace amount of sample, through chemical reaction, collecting detection signals by a special precision instrument, and analyzing the result by using a high-level computer, accurate, fast and high-throughput detection and analysis of 'nano dense membrane strip' components such as 'nano material storage intelligent identification + quantum data information intelligent key'; further, respectively comprising: or the selection and adoption (one) and intelligent self-assembly (self-assembly) of quantum data information are as follows: the chip is spliced into a specific nanostructure by complementary hybridization of a nanometer compact film strip chip and nanometer material storage intelligent identification and quantum data information intelligent key, so as to support and fix: the final aim is to directly produce a product of 'intelligent identification for storing nano materials and quantum data information intelligent key' (intelligent key for storing nano materials) 'nano compact film strip chip') with specific functions by using novel physical, chemical and biological characteristics expressed by atoms, molecules and substances on the nano scale; or respectively selecting and adopting (II) and scanning probe printing (scanning probe 1. Ithodographies) to be: the method comprises the following steps of utilizing a needle point of an Atomic Force Microscope (AFM) to dip, wherein the final aim is to directly manufacture a 'nano material storage intelligent identification + quantum data information intelligent key' with a specific function according to novel physical, chemical and biological characteristics of atoms, molecules and substances on a nano scale, and the 'nano material storage intelligent identification + quantum data information intelligent key' is decorated on a 'nano compact membrane strip chip'; or respectively, selecting and using (three) the flexible printing (soft lithography) is: the 'nano compact membrane strip' is printed by using a microcontact mode, and the final aim is to directly manufacture a product with specific functions, namely intelligent identification of nano material storage and quantum data information intelligent key (a product of a nano compact membrane strip chip), by using novel physical, chemical and biological characteristics of atoms, molecules and substances on a nano scale.

3. The nano-metal alloy banknote of claim 1, comprising: bimetallic alloys { noble and non-noble metals, such as Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu and the like and/or bimetal alloy { non-noble metal and non-noble metal, such as Mn, Fe, Co, Ni, Cu, Zn and the like } nano particle powder material is molded by a high-speed standard mechanism by applying an advanced computer design/manufacture system, a target design technology, a computer simulation technology, a combination or assembly technology and the like to obtain the bimetal alloy nano material, namely the bimetal alloy nano material with super strength, intelligence, corrosion resistance, color and luster and the like.

Technical Field

The invention relates to the field of traditional currency or money, in particular to nano metal alloy money (commonly called bank note).

Currently, the currencies/coins in the traditional circulation around the world are generally: three main types of currency/coins are tissue paper currency, metal cast (hard) currency and plastic currency.

Compared with cotton paper currency, the cast coin has six advantages that the circulation life is far longer than that of the paper currency, the standard machine-made cast (hard) coin manufactured under modern technical conditions can circulate 3 thousands of times, the circulation time is 30 years on average, 1 piece of paper currency circulates 300 times on average and only has 1/100 the service life of the coin, the ratio of the comprehensive cost of 20 years of use of 1-unit-denomination coins and the cotton paper currency is about 1: 15, the throwing of the 1-unit cast coin is beneficial to popularization and application of an automatic vending machine, a parking lot automatic toll collector, a subway and a public transportation automatic ticket vending machine and greatly facilitates the mass life, the third step is beneficial to purifying the cash circulation environment and reducing germ transmission, the fourth step is also beneficial to saving energy, protects resources such as wood, cotton, fresh water and the like required by manufacturing of the paper currency, metal can be recycled and recast after decades, the original value loss is low, the fifth step is beneficial to open fire prevention, the fire resistance performance is high, the sixth step is that the water and liquid are prevented from being soaked, the metal can not damaged by the first step, the defect that ① is that the cast coin is more convenient to carry at a high speed (②) casting machine-made of the cast coin.

Compared with the current circulating cotton paper money, the plastic paper money is cleaner, safer and tougher due to the characteristics of stain resistance, water resistance, anti-counterfeiting, difficult damage and the like, and the service life of the plastic paper money is at least 2.5 times of that of the paper money; this will reduce the costs associated with printing and transportation, and also contribute to reducing energy consumption; the plastic can be recycled for other uses after decades, and the original value of the plastic is not greatly lost; moreover, the anti-counterfeiting encryption performance level of the plastic banknote mechanism is higher than that of paper money and the like; the main disadvantages are: 1), the plastic paper money can not prevent open fire; and 2) the plastic money has poor corrosion resistance, is easy to age and damage and the like.

The nano metal alloy paper money has six advantages compared with cotton paper money: first, the circulation life is much longer than that of paper money; the nano metal alloy banknote with a standard mechanism has super strength and elasticity, the circulation frequency can reach more than 3 ten thousand times, and the average circulation time can exceed 30 years; secondly, the consumption of energy sources is reduced, and resources such as wood, cotton, fresh water and the like required by manufacturing cotton paper money are saved and protected; and the nano metal can be recovered or recycled after decades, and the original value of the nano metal is not lost much; thirdly, the method is beneficial to purifying the cash circulation environment and reducing the spread of germs; fourthly, open fire prevention and high flame retardant performance level; fifthly, the waterproof and liquid solution-proof structure is not damaged by immersion and has strong corrosion resistance; and sixthly, the performance grade and the function of the mechanism intelligent, anti-counterfeiting and anti-imitation secret key are far higher than those of cotton paper money and plastic paper money and the like.

The method is suitable for diversification, internationalization and robustness of new global currencies, establishes a strong international currency financial system, expands deep currencies and reform and innovate and manage, strengthens risk supervision and control in currency circulation, and the like.

For example, the resources of high-quality wood, cotton, fresh water and the like which are required to be consumed for manufacturing the cotton paper money can be saved.

Background

Through the development of more than half a century, particularly at the end of the last century, with the remarkable improvement of measurement and characterization technology, the nano science and technology has been developed rapidly, and has become an emerging research field with leading edge, intersection and multidisciplinary characteristics, and the theoretical basis and research objects relate to a plurality of different disciplines such as physics, chemistry, materials science, mechanics, microelectronics, biology, medicine and the like.

The 'nanometer' in nanotechnology is represented by m in international units and nm in symbols, and the diameter of one atom is 0.1-0.3 nm in terms of physical atoms; nanotechnology refers to the science and technology of studying the properties and interactions of substances, such as atoms and molecules, on the nanometer scale (between 1nm and 100nm), and the multidisciplinary intersection of these properties; when the size of a substance is as small as 1-100 nm, the quantum effect, the substance locality and the huge surface and interface effect of the substance enable many properties of the substance to be changed qualitatively, and a plurality of singular phenomena different from a macroscopic object and a single isolated origin are presented; the ultimate goal of nanotechnology is to directly produce products with specific functions by means of novel physical, chemical and biological properties expressed on the nanometer scale by atoms, molecules and substances.

The nanotechnology has great influence on the economic development, scientific and technical progress, human life and other aspects of the society.

The chemical synthesis of metal nanocrystals and other materials is currently under development, as is a study of artistic colors.

Nanometer is a measure of the geometric dimensions, 1 nanometer being one millionth of a millimeter; the nano scientific technology is an application science for researching the design method, composition, characteristics and application of materials and equipment in the nano size (1-100 nm); nanotechnology and information science and life science are the mainstream of current scientific development, and the development of the nanotechnology and the information science and life science and technology enables the human society, the living environment and the science and technology to be more beautiful.

At present, nanotechnology has become a relatively common science in human science, but the development of nanotechnology has just opened up and will bring many unexpected benefits to human beings in the future.

The crossing from single nanocrystal to array is just the change of material from micro to macro and also the change from basic research to application result; while mass production of nanomaterials is a prerequisite for future industrial applications.

Nanotechnology (nanotechnology) is a scientific technique for manufacturing substances with single atoms, molecules; the nano science and technology is a scientific technology based on many modern advanced scientific technologies, and is a product of combination of modern science (chaotic physics, quantum mechanics, mesoscopic physics, molecular biology) and modern technology (computer technology, micro-electronics, scanning tunneling microscope technology and nuclear analysis technology), and the nano science and technology can initiate a series of new scientific technologies, such as nanoelectronics, nano material science, nano mechanics and the like.

People propose that the introduction of nanotechnology into biochips is likely to provide new materials and solutions to enhance the performance of biochips; a new and developed high technology capable of operating small to 0.1-100 nm objects; biochips, biosensors, and the like can be classified into the nanotechnology category.

The research and application of the current nanotechnology are mainly in the aspects of materials and preparation, microelectronics and computer technology, medicine and health, aerospace and aviation, environment and energy, biotechnology and agricultural products and the like; the equipment made of the nano material has lighter weight, stronger hardness, longer service life, lower maintenance cost and more convenient design; the nanometer material may be used in producing material with specific property or material without existence in natural world, and biological material and bionic material.

The interface nano biological material mainly comprises a special wettability interface nano material, an intelligent nano biological interface material and a chiral interface nano biological material.

The metal nanocrystalline is one of the most popular materials in the field of nano-chemistry research at present, and the noble metal has relatively simple composition and structure and very rich application, so the metal nanocrystalline is widely researched; metal nanocrystals exhibit unique optical, electrical, magnetic, and catalytic properties due to quantum-ruler effects and surface effects.

Compared with other types of nano materials, the synthesis of the noble metal nanocrystalline mainly adopts redox reaction, reactants generally comprise metal salt, a reducing agent, a surfactant and a reaction solvent, some raw materials can play several roles simultaneously, the synthesis method is relatively modeled and has wide applicability, and meanwhile, some synthesis systems of the noble metal can also be directly applied to the synthesis of other nano materials; the metal nano material with controllable microstructures such as size, appearance, composition, atomic arrangement mode and the like can be synthesized only by controlling the nucleation and growth processes; although the temporary separation of nucleation and growth is one of the keys for the controlled synthesis of nanocrystals, it is often not easily achieved in practical operation; in recent years, with the rapid development of nano-controlled synthesis technology, various methods and systems have been established to achieve the controlled preparation of metal (noble metals and alloys thereof) nanocrystals { e.g. bimetallic alloy nano-liquid crystalline materials, such as: Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu, etc.).

The noble metal induced reduction reaction is mainly used for synthesizing bimetallic nanocrystals of noble metals (Au, Pt, Pd, Ir, Rh, Ru and the like) and non-noble metals (Mn, Fe, Co, Ni, Cu, Zn and the like); the purpose of adjusting the size and the shape of the product can be achieved by adjusting the concentration and the reaction temperature of the precursor; the composition of the bimetallic nanocrystal is mainly determined by the molar ratio of the two metal salts { wherein: the noble metals are respectively: au (gold); pt (platinum); pd (palladium); ir (iridium); rh (rhodium); ru (ruthenium), non-noble metals are: mn (manganese); fe (iron); co (cobalt); ni (nickel); cu (copper); zn (zinc) }.

Nano metal block-is the world of materials, the world of the great power: the metal nano particle powder is made into a massive metal material, which can become very firm, has the strength more than ten times higher than that of common metal, and simultaneously can be rich in elasticity like rubber; the nano block is a nano grain material obtained by high-pressure forming nano powder or controlling crystallization of metal liquid; the main application is as follows: a super-strength material; smart metal materials, etc.; the electrode potential of the bimetal alloy will rise continuously as the corrosion reaction proceeds, which also means that the corrosion resistance of the bimetal alloy is continuously enhanced, and so on.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the technical problems existing in the conventional paper money and plastic money, the invention aims to provide a nano metal alloy money, and the technical scheme adopted for solving the technical problems is as follows: including the alloying of bimetallic alloys { noble and non-noble metals, such as Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu and the like } nano-grain materials/or bimetallic alloy { non-noble metals and non-noble metals, such as Mn, Fe, Co, Ni, Cu, Zn and the like } nano-particle powder materials adopt electron microscopy { respectively selects or adopts: microscopic characterization and manipulation techniques such as Scanning Tunneling Microscope (STM), atomic force microscope (AEM), Scanning Transmission Electron Microscope (STEM), Field Emission Microscope (FEM), and Field Ion Microscope (FIM) }; the combination of the photoetching technology or the electron beam etching technology can be combined with the nano particle self-assembly technology for use; a high-level computer design/manufacturing technology and existing equipment and ultra-precise electronic devices of a factory production line are used { a plurality of components and parts which can be manufactured with power sources and programs being self-disciplined, and a complex group of ultra-precise electronic devices which are ultra-precise, highly-precise, intelligent, data processing and AI information control and high-speed molding } are formed }; the bimetal alloy nano material, namely the nano metal alloy money of the bimetal alloy nano material with super strength, intelligence and corrosion resistance, is formed by a high-speed standard mechanism by applying a high-grade computer design/manufacture system, a target design technology, a computer simulation technology, a combination or assembly technology and the like, and an integrated complete set product is manufactured by combining a built-in nano compact membrane strip chip with nano material storage intelligent identification and quantum data information intelligent key and the like; further, the nano-metal alloy banknote is characterized in that the kit product comprises: the structure is very firm, the strength is ten times higher than that of common metal, and the structure is an ultra-strong, intelligent and corrosion-resistant ultra-thin plate made of bimetallic alloy nano material and the like which is rich in elasticity like rubber.

< nanometer dense membrane strip chip >, comprising: the nanometer compact membrane strip chip is characterized in that a device formed by active molecules of a nanometer compact membrane strip is connected to the surface of a material with a very small size, a trace amount of sample is added, a special precision instrument is used for collecting detection signals through chemical reaction, and the result is analyzed by a high-level computer, so that accurate, quick and high-flux detection and analysis of components of the nanometer compact membrane strip such as 'nanometer material storage intelligent identification + quantum data information intelligent key' and the like are realized; further, respectively comprising: or the selection and adoption (one) and intelligent self-assembly (self-assembly) of quantum data information are as follows: the chip is spliced into a specific nanostructure by complementary hybridization of a nanometer compact film strip chip and nanometer material storage intelligent identification and quantum data information intelligent key, so as to support and fix: the final aim is to directly produce a product of 'intelligent identification for storing nano materials and quantum data information intelligent key' (intelligent key for storing nano materials) 'nano compact film strip chip') with specific functions by using novel physical, chemical and biological characteristics expressed by atoms, molecules and substances on the nano scale; or respectively selecting and adopting (II) and scanning probe printing (scanning probe 1. Ithodographies) to be: the method comprises the following steps of utilizing a needle point of an atomic force microscope (AEM) to dip, wherein the final aim is to directly manufacture a 'nano material storage intelligent identification + quantum data information intelligent key' with a specific function according to novel physical, chemical and biological characteristics of atoms, molecules and substances on a nano scale, and the 'nano material storage intelligent identification + quantum data information intelligent key' is decorated on a 'nano compact membrane strip chip'; or respectively, selecting and adopting (three) flexible printing (soft 1 inkjet) as follows: the 'nano compact membrane strip' is printed by using a microcontact mode, and the final aim is to directly manufacture a product with specific functions, namely intelligent identification of nano material storage and quantum data information intelligent key (a product of a nano compact membrane strip chip), by using novel physical, chemical and biological characteristics of atoms, molecules and substances on a nano scale.

A nano-metal alloy banknote comprising: bimetallic alloys { noble and non-noble metals, such as Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu and the like and/or bimetal alloy nano material, namely the super-strength, intelligent and corrosion-resistant bimetal alloy nano material and other structural forms, which is obtained by molding a bimetal alloy { non-noble metal and non-noble metal, such as Mn, Fe, Co, Ni, Cu, Zn and the like } nano particle powder material by using a high-speed standard mechanism by using a high-grade computer design/manufacturing system, a target design technology, a computer simulation technology, a combination or assembly technology and the like.

Detailed Description

The nano metal alloy banknote of the embodiment comprises: bimetallic alloys { noble and non-noble metals, such as Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu and the like } nano-grain materials/or bimetallic alloy { non-noble metals and non-noble metals, such as Mn, Fe, Co, Ni, Cu, Zn and the like } nano-particle powder materials adopt electron microscopy { respectively selects or adopts: microscopic characterization and manipulation techniques such as Scanning Tunneling Microscope (STM), Atomic Force Microscope (AFM), Scanning Transmission Electron Microscope (STEM), Field Emission Microscope (FEM), and Field Ion Microscope (FIM) }; the combination of the photoetching technology or the electron beam etching technology can be combined with the nano particle self-assembly technology for use; a high-level computer design/manufacturing technology and existing equipment and ultra-precise electronic devices of a factory production line are used { a plurality of components and parts which can be manufactured with power sources and programs being self-disciplined, and a complex group of ultra-precise electronic devices which are ultra-precise, highly-precise, intelligent, data processing and AI information control and high-speed molding } are formed }; the bimetal alloy nano material, namely the nano metal alloy money of the bimetal alloy nano material with super strength, intelligence and corrosion resistance, is formed by a high-speed standard mechanism by applying a high-grade computer design/manufacture system, a target design technology, a computer simulation technology, a combination or assembly technology and the like, and an integrated complete set product is manufactured by combining a built-in nano compact membrane strip chip with nano material storage intelligent identification and quantum data information intelligent key and the like; further, the kit of this embodiment comprises: the structure is very firm, the strength is dozens of times higher than that of common metal, and the structure is an ultra-strong, intelligent and corrosion-resistant sheet made of bimetal alloy nano materials and the like which are as rich in elasticity as rubber; furthermore, the thickness of the single banknote set in the kit of this embodiment, which includes different requirements and possibilities (sequentially from small to large) according to the denomination of the banknote, is: the specification and size of 0.06 plus or minus 0.002 mm, 0.07 plus or minus 0.002 mm and 0.08 plus or minus 0.002 mm are preferred; and adopting the preferred array: the nanometer metal alloy material formed by respectively combining the noble metal and the non-noble metal or the non-noble metal and the non-noble metal has the own color, and the purpose of distinguishing the appearance and the color of the finished products with various specifications is realized.

The nanometer compact membrane strip chip of the embodiment comprises a device formed by connecting nanometer compact membrane strips active molecules on the surface of a material with a very small size, a trace amount of sample is added, a special precise instrument is used for collecting detection signals through chemical reaction, and the result is analyzed by a high-level computer, so that accurate, quick and high-flux detection and analysis of components of the nanometer compact membrane strips such as 'nanometer material storage intelligent identification + quantum data information intelligent key' and the like are realized; further, the present embodiment includes: or the selection and adoption (one) and intelligent self-assembly (self-assembly) of quantum data information are as follows: the chip is spliced into a specific nanostructure by complementary hybridization of a nanometer compact film strip chip and nanometer material storage intelligent identification and quantum data information intelligent key, so as to support and fix: the final aim is to directly produce a product of 'intelligent identification for storing nano materials and quantum data information intelligent key' (intelligent key for storing nano materials) 'nano compact film strip chip') with specific functions by using novel physical, chemical and biological characteristics expressed by atoms, molecules and substances on the nano scale; or respectively selecting and adopting (II) and scanning probe printing (scanning probe 1. Ithodographies) to be: the method comprises the following steps of utilizing a needle point of an Atomic Force Microscope (AFM) to dip, wherein the final aim is to directly manufacture a 'nano material storage intelligent identification + quantum data information intelligent key' with a specific function according to novel physical, chemical and biological characteristics of atoms, molecules and substances on a nano scale, and the 'nano material storage intelligent identification + quantum data information intelligent key' is decorated on a 'nano compact membrane strip chip'; or respectively, selecting and using (three) the flexible printing (soft lithography) is: the 'nano compact membrane strip' is printed by using a microcontact mode, and the final aim is to directly manufacture a product with specific functions, namely intelligent identification of nano material storage and quantum data information intelligent key (a product of a nano compact membrane strip chip), by using novel physical, chemical and biological characteristics of atoms, molecules and substances on a nano scale.

The nano metal alloy banknote of the embodiment comprises: bimetallic alloys { noble and non-noble metals, such as Pt-Ni; Rh-Ni; Pd-Ni; Pd-Cu; Pt-Cu and the like and/or bimetal alloy nano material, namely the super-strength, intelligent and corrosion-resistant bimetal alloy nano material and other structural forms, which is obtained by molding a bimetal alloy { non-noble metal and non-noble metal, such as Mn, Fe, Co, Ni, Cu, Zn and the like } nano particle powder material by using a high-speed standard mechanism by using a high-grade computer design/manufacturing system, a target design technology, a computer simulation technology, a combination or assembly technology and the like.

The nano metal alloy banknote of the embodiment comprises: the improved paper money has the advantages that the micro-scale improvement is carried out on the basis of the plane size of face values of the national 'fifth generation set of RMB cotton paper money' and the like, the consumption of manufacturing raw materials is reduced, the transportation occupied space for transporting the paper money and the related cost are saved, the consumption of energy and resources is reduced, and the paper money is convenient to carry when a large number of paper money is used.

The nano metal alloy banknote of the embodiment comprises the following components for solving the problem of currency (banknote): more portable and convenient to carry; the product has the advantages of super strength, intelligence, pollution resistance, corrosion resistance, fire resistance, water resistance, anti-counterfeiting property, elasticity and difficult damage; the use is cleaner, safe and tough, the encryption level is higher, and the like; the weight and the thickness of a single nano metal alloy banknote per unit area are more excellent than those of a cotton banknote; compared with plastic paper money, the plastic paper money has the advantages of lighter weight, stronger strength, higher density, better flexibility, strong corrosion resistance and longer service life; meanwhile, the technical problems of mechanism and transportation related cost reduction, energy and resource consumption reduction and the like are solved, the adoption of the ultra-strength, intelligent and corrosion-resistant bimetallic alloy nano material is realized, and the built-in < nano compact membrane strip chip > is combined with 'nano material storage intelligent identification + quantum data information intelligent key' and the like to manufacture an integral complete product.