▎ 摘　　要

NOVELTY - The chip has a base (1) provided with a positive electrode blind groove, a capacitor blind groove, a negative electrode blind groove, a base capacitor negative lead hole and a diaphragm stepping unit. A capacitor negative lead (6-7) is filled at an inner side of a through-hole. A capacitor negative pad (6-9) is fixed on an upper surface of a top layer (3) and located around an end surface of the capacitor negative lead. A capacitor anode bonding pad (6-8) is connected with a capacitor cathode bonding pad (6-9) to form a capacitor module (6), where a negative electrode is obtained for power generation (5-1) required for design of an energy recovery storage chip main body. USE - Three-dimensional graphene based integrated micro-nano energy recovery storage chip for mobile consumer electronics and an internet-of-things. ADVANTAGE - The chip is convenient to manufacture, and small in size. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a three-dimensional graphene based integrated micro-nano energy recovery storage chip working method. DESCRIPTION OF DRAWING(S) - The drawing shows a sectional view of an integrated micro-nano energy recovery storage chip. Base (1) Top layer (3) Power generation (5-1) Capacitor module (6) Capacitor negative lead (6-7) Capacitor anode bonding pad (6-8) Capacitor cathode bonding pad (6-9) Capacitor negative pad (6-9)