Method of delivering a dose of a fluid composition from a microfluidic delivery cartridge

1. A method of delivering a dose of a liquid composition from a microfluidic delivery refill, wherein the liquid composition comprises volatile components such that the liquid composition is defined by a boiling point temperature, and wherein the liquid composition comprises more than 50 wt. % of a perfume mixture, and wherein the microfluidic delivery refill comprises a reservoir enclosing the liquid composition and a microfluidic delivery member comprising a plurality of nozzles and a heater associated with each nozzle, wherein the microfluidic delivery member is in fluid communication with the reservoir, the method comprising:

• receiving an electrical signal with one or more of the heaters of the microfluidic delivery member, wherein the electrical signal comprises a plurality of firing pulses that each alternate between a relatively low amplitude and a relatively high amplitude;
  
  preheating the liquid composition before the heater of the microfluidic delivery member is activated, wherein the liquid composition is preheated for less than about 2 microseconds;
  
  activating one or more non-adjacent heaters simultaneously in response to the relatively high amplitude of each of the firing pulses of the electrical signal, wherein, when the heater is activated, the temperature of the heater is greater than the boiling point temperature of the liquid composition, wherein only non-adjacent heaters are simultaneously activated, wherein the relatively high amplitude persists for a fire time (tFIRE) in each of the firing pulses, wherein the tFIRE is less than about 4 microseconds;
  
  activating one or more of the heaters of the microfluidic delivery member in sequence in response to the relatively high amplitude of each of the firing pulses of the electrical signal, wherein no two adjacent nozzles are ejecting fluid in sequence;
  
  utilizing an amount of energy while each heater is activated, wherein the amount of energy is between about 33 Milliwatts and about 8.5 Watts; and
  
  vaporizing at least a portion of the volatile components of the liquid composition when each heater is activated, whereby the dose of the liquid composition is delivered by the microfluidic delivery member.