| 主权项 |
1. a) Materials such as 2D graphene can be manufactured by using more efficient, integrated processes and/or equipment of microwave (or infrared etc) assisted synthesis, blending (or mixng) and/or ultrasound.
b) Porous or holey nanomaterials such as holey graphene can be manufactured by using more efficient, integrated processes and/or equipment of microwave (or infrared etc) assisted synthesis, blending and/or ultrasound. c) The heating energy, duration, and temperature can vary or be controlled for desirable results. d) Various components or materials such as catalysts, solvents etc, can be added for specific effects or improvements before, during or after the process; e) The hole sizes, density, distribution, location, area or defect degrees in the 2D nanomaterials can be controlled by energy power, processing time, temperature, additional materials or processes etc; f) The energy used for manufacturing can be greatly reduced; g) The process time can be greatly reduced, even down to seconds in certain cases; h) The process can be performed in air, inert circumstance, vacuum or special gas or other desirable environments; i) The process can be intermittent, roll-to-roll mode, or any other continued or continuous processes such as a belt or plate moving or rotating; j) This efficient process can be used for many materials, including nanomaterials, 2D nanomaterials, graphene, graphene oxide (GO), boron nitride (BN), molybdenum disulfide (MoS2), black phosphorus, etc; k) The thickness of materials can vary from a single atom layer, nanometer, sub-micrometer, micrometer, to bulk like several micro meters or more; l) Compression or compaction or other processes can be applied for many desirable effects such as volume reduction, conductivity, mechanical strength, specific porosity or transports etc; m) These materials can be used in many applications including but not limited to: solar, coating, printing, painting, dye, additive, batteries electrodes, current collector, energy storage devices, electronic devices, 3D printing inks, separation or purification of gas, water, waste treatments or other materials, and lighting, OLED, sensors, detection, medical devices, medicine, defense or construction materials and systems, protection materials and devices, etc. n) Such efficient heating can also be assisted or complemented by regular heating sources (such as gas or electrical heating via conduction, convection and/or radiation etc) in certain cases to enhance efficiency. o) Obtained materials can have improved or new properties, for example, ease or possibility of adding function groups for desirable properties. p) Obtained materials can be used in many applications or processes to achieve desirable properties. One example is to replace metal properties as shielding or protection. The shielding or protection can be mechanical or electrical, electronic or other forms. One particular example is Electromagnetic compatibility (EMC) and/or Electromagnetic Immunity (EMI) |
