Method for assembling and encapsulating lithium microbatteries and microbatteries produced thereby

The invention claimed is: 1. A method of vertically assembling encapsulated single microbatteries, said vertical assembly containing between the microbatteries at least one of an electrical insulation and sealing layer and a metal layer that contacts at least two microbatteries, said assembly method successively comprising the steps of: (a) stacking and attaching at least two single microbatteries, previously and individually encapsulated, stacked on each other; (b) forming a metal layer that contacts at least two microbatteries, ensuring the electrical coupling of each of the metal layers of each of the individually encapsulated single microbatteries; wherein each of the at least two individually encapsulated single microbatteries is prepared prior to the stacking step (a) by: (i) forming at least one of an electrical insulation and sealing layer over at least a portion of lateral sides and of a surface comprising the current collectors of said single microbattery comprising positive and negative electrodes, an electrolyte, and positive and negative current collectors; (ii) making the current collectors of said microbattery accessible; (iii) forming a metal layer extending from the current collectors of said single microbattery to the lateral sides of said microbattery, wherein the metal layer is a discontinuous metal layer contacting the current collectors of said single microbattery; wherein each single microbattery comprises only one positive electrode, only one electrolyte and only one negative electrode, wherein, prior to the stacking step (a), each single microbattery is formed on a substrate that does not contain any via, wherein each substrate is not a current collector of said microbattery; wherein the metal layer formed in step (iii) is a discontinuous metal layer deposited on a portion of an upper surface and on two lateral sides of the microbattery, thus electrically connecting each current collector to the adjacent lateral side; and wherein the positive and negative current collectors within each single microbattery are not electrically interconnected within said single microbattery. 2. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the attaching of the encapsulated single microbatteries is performed by means of at least one of non-conductive glue and a non-conductive adhesive film, interposed between two consecutive microbatteries of the stack. 3. The method of vertically assembling encapsulated single microbatteries of claim 2 , wherein the gluing is performed with glue comprising a thermal epoxy. 4. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the electrical insulation and sealing layer is formed by the successive deposition of an electrical insulation layer and of a sealing layer. 5. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the electrical insulation layer comprises a polymer selected from the group consisting of an epoxy, parylene, an acrylate, a silicone, and mixtures thereof. 6. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the electrical insulation layer has a thickness in the range from 1 to 5 micrometers. 7. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the sealing layer comprises at least one dielectric element selected from the group consisting of silicon oxynitride, silicon nitride, silica, alumina, and mixtures thereof. 8. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the sealing layer has a thickness in the range from 10 to 500 nanometers. 9. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the step of accessibility of the current collectors is carried out by selective etching. 10. The method of vertically assembling encapsulated single microbatteries of claim 9 , wherein the selective etching comprises: a first step of selective etching with a fluorinated SF 6 gas plasma; and a second step of selective etching by a plasma comprising oxygen. 11. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the metal layer formed in step (iii) is obtained by isotropic deposition, or by atomic layer deposition. 12. The method of vertically assembling encapsulated single microbatteries of claim 1 , wherein the metal layer formed in step (iii) comprises at least one element selected from the group consisting of titanium, tungsten, gold, silver, aluminum, and nickel. 13. The method of vertically assembling encapsulated single microbatteries of claim 11 , wherein the metal layer formed in step (iii) has a thickness in the range from 100 to 500 nanometers. 14. A vertical stack of individually encapsulated microbatteries, obtained by the method of claim 1 .