Battery module and methods for bonding cell terminals of battery cells together

1. A battery module, comprising:

• a first battery cell having a first body portion, a first extension portion, and a first cell terminal;
  
  the first extension portion extending from the first body portion in a first direction, the first cell terminal extendin from the first extension portion in the first direction, the first cell terminal having a first cell terminal portion extending in the first direction, the first cell terminal portion having a first flat side, fhe first cell terminal portion further having a first end disposed a first distance from the first extension portion;
  
  a second battery cell having a second body portion, a second extension portion, and a second cell terminal;
  
  the second extension portion extending from the second body portion in the first direction, the second cell terminal extending from the second extension portion in the first direction, the second cell terminal having a second cell terminal portion extending in the first direction, the second cell terminal portion having a second flat side, the second cell terminal portion further having a second end disposed a second distance from the second extension portion, the second flat side of the second cell terminal portion being disposed substantially parallel to the first flat side of the first cell terminal portion and being spaced apart from the first flat side; and
  
  an exothermal reactive layer disposed between the first and second flat sides of the first and second cell terminal portions, respectively, and contacting the first and second flat sides a top end of the exothermal reactive layer being disposed a third distance from the first and second ends of the first and second cell terminal portions, respectively, in the first direction, and an open region being located between the first and second cell terminal portions and extending from the top end of the exothermal reactive layer to the first and second ends of the first and second cell terminal portions, respectively;
  
  the exothermal reactive layer having first and second sides, the first side being disposed adjacent to the first cell terminal portion, the second side being disposed adjacent to the second cell terminal portion, the exothermal reactive layer being configured to ignite to form a bonding joint between the first and second cell terminals in response to a laser beam propagating through the open region and contacting at least the top end of the exothermal reactive layer;
  
  the exothermal reactive layer having at least first, second, and third aluminum layers and at least first and second nickel layers;
  
  the first, second, and third aluminum layers being constructed entirely of aluminum;
  
  the first and second nickel layers being constructed entirely of nickel;
  
  the first nickel layer being disposed between the first and second aluminum layers, the second nickel layer being disposed between the second and third aluminum layers, the first side of the exothermal reactive cell being the first aluminum layer of the plurality of aluminum layers, and the first cell terminal being an aluminum cell terminal, the second side of the exothermal reactive layer being the third aluminum layer of the plurality of aluminum layers, and the second cell terminal being an aluminum cell terminal.