Abstract: Provided is a carbon-based functional material (simply as FCN or FCN material) and applications thereof. The carbon-based functional material consists of three elements, namely carbon, nitrogen, and oxygen, having sp2 carbons as the backbone and functional groups R formed on the surface and/or periphery of a carbon backbone substrate, the R functional groups being a combination of groups such as a hydroxyl, carboxyl, ether bond, epoxy, carbonyl, aldehyde, ester, and alkyl.

Abstract: The present invention provides a method, which is used with trace amount, can initiate an active endogenous response of plants, and can obtain expected effects such as growth acceleration and yield increase of the plants. The present invention further provides preparation of a signal carrier material for implementing the method. In the method, by utilizing genetic information stored in the plants, the plants can adapt to an environment through a signal which makes the plants mistakenly perceive, thereby achieving an expected objective. The method is suitable for planting of crops in regions with poor natural conditions or severe climate changes.

Abstract: The present invention provides a carbon-lithium composite powder and a preparation method thereof. In the present invention, a carbon material is used as a skeleton to support metal lithium, which increases the specific surface area of the composite powder, and can effectively reduce the current density and stabilize the surface potential of an electrode, thereby effectively inhibit the growth of lithium dendrites during the process in which the metal lithium is used as an anode material. The present invention provides a method for preparing a lithium metal secondary battery electrode. In the present invention, a roller-press flaking process is adopted to prepare the electrode, such that it is easy to regulate the effective capacity of the metal lithium loaded on the current collector, thereby better matching the corresponding active cathode material to improve the effective utilization rate of the metal lithium.

Abstract: A novel carbon-based material (abbreviated N-FCN) composed of carbon, hydrogen, oxygen and nitrogen and application thereof. The raw materials of the novel carbon-based material are derived from natural or simple inorganic matter which provide the four elements of carbon, hydrogen, oxygen and nitrogen. A composite organic matter is formed at low voltage and low energy and comprises a carbon base in graphite structure, at least one or more composite organic functional groups and an organic small molecule, wherein at least two or more amino acids may be detected in the organic small molecule. The novel carbon-based material may induce an active response of an omanism. After a trace amount of the novel carbon-based material is released into a biological growth environment, the organism will actively respond to the novel carbon-based material.

Abstract: The present invention aims at improving and upgrading the conventional devices based on the low temperature magnetron sputtering coating devices. Starting from the material systems, the invention provides a new material system and a manufacturing method thereof based on a high molecular weight polyethylene joint cup to solve the poor binding force problem between the film and the matrix, and the problems of easy oxidization and carbonization of high molecular weight polyethylene with low temperature magnetron sputtering technologies at the same time. On the above basis, the ultra-lubrication performance of graphite-like structure films and ultra-hardness of diamond-like structure films are utilized to construct a nano-scale multilayer structure DLC film alternatively coated with a graphite-like film and a diamond-like film.

Abstract: A magnetron sputtering coating device includes a deposition chamber, sputtering cathodes, a rotating stand within the deposition chamber, a support platform on the rotating stand, a first rotation system for driving the rotating stand to rotate around a central axis of the rotating stand, and a baffle fixed on the rotating stand. The sputtering cathodes are arranged around and perpendicular to the rotating stand.

Abstract: A magnetron sputtering coating device includes a deposition chamber, sputtering cathodes, a rotating stand within the deposition chamber, a support platform on the rotating stand, a first rotation system for driving the rotating stand to rotate around a central axis of the rotating stand, and a baffle fixed on the rotating stand. The sputtering cathodes are arranged around and perpendicular to the rotating stand.

Abstract: The present invention aims at improving and upgrading the conventional devices based on the low temperature magnetron sputtering coating devices. Starting from the material systems, the invention provides a new material system and a manufacturing method thereof based on a high molecular weight polyethylene joint cup to solve the poor binding force problem between the film and the matrix, and the problems of easy oxidization and carbonization of high molecular weight polyethylene with low temperature magnetron sputtering technologies at the same time. On the above basis, the ultra-lubrication performance of graphite-like structure films and ultra-hardness of diamond-like structure films are utilized to construct a nano-scale multilayer structure DLC film alternatively coated with a graphite-like film and a diamond-like film.

Abstract: A method for treatment of saline-alkali land is provided, comprising at least one self-circulating process, the self-circulating process comprising: step 1, converting saline-alkali water deposited in the saline-alkali land into acidic water by an electrolysis system, whereby the salt content of the acidic water is lower than that of the saline-alkali water; and step 2, leaching the saline-alkali land with leaching water comprising the acidic water. A device for treatment of saline-alkali land according to the above-described method is also provided, comprising: an electrolysis system for converting saline-alkali water deposited in the saline-alkali land into acidic water, whereby the salt content of the acidic water is lower than that of the saline-alkali water; and a leaching system for leaching the saline-alkali land with leaching water comprising the acidic water.

Abstract: A magnetron sputtering coating device includes a deposition chamber, sputtering cathodes, a rotating stand within the deposition chamber, a support platform on the rotating stand, a first rotation system for driving the rotating stand to rotate around a central axis of the rotating stand, and a baffle fixed on the rotating stand. The sputtering cathodes are arranged around and perpendicular to the rotating stand.

Abstract: A magnetron sputtering coating device includes a deposition chamber, sputtering cathodes, a rotating stand within the deposition chamber, a support platform on the rotating stand, a first rotation system for driving the rotating stand to rotate around a central axis of the rotating stand, and a baffle fixed on the rotating stand. The sputtering cathodes are arranged around and perpendicular to the rotating stand.

Abstract: A magnetron sputtering coating device includes a deposition chamber, sputtering cathodes, a rotating stand within the deposition chamber, a support platform on the rotating stand, a first rotation system for driving the rotating stand to rotate around a central axis of the rotating stand, and a baffle fixed on the rotating stand. The sputtering cathodes are arranged around and perpendicular to the rotating stand.

Abstract: A method for treatment of saline-alkali land is provided, comprising at least one self-circulating process, the self-circulating process comprising: step 1, converting saline-alkali water deposited in the saline-alkali land into acidic water by an electrolysis system, whereby the salt content of the acidic water is lower than that of the saline-alkali water; and step 2, leaching the saline-alkali land with leaching water comprising the acidic water. A device for treatment of saline-alkali land according to the above-described method is also provided, comprising: an electrolysis system for converting saline-alkali water deposited in the saline-alkali land into acidic water, whereby the salt content of the acidic water is lower than that of the saline-alkali water; and a leaching system for leaching the saline-alkali land with leaching water comprising the acidic water.