5. ConclusionsFrom all the referenc

5. Conclusions
From all the references analyzed, the following items should address attention:
a) To solve the problem of coupling between the electrical field for electrochemical reactions and the excitation
field for an ultrasonic transducer in a sonoelectrochemical reactor.
b) To design and build a flexible sonoelectrochemical multi-purpose reactor.
c) To study the frequency dependence of sonoelectrochemical phenomena.
d) To study the intensity of acoustic field dependence in some sonoelectrochemical reactions in controlled way.
e) To measure in high accuracy way the acoustic field inside the sonoelectrochemical reactor.
f) To establish the best electrical field to improve sonoelectrochemical reactions.
g) To assess the influence of an electrical field in the tip of the sonoelectrochemical reactor.
h) To study the dependence from transient cavitation threshold and the gas solved in the cavitating liquid.
i) To assess the participation of cavitation in the generation of new compounds in sonoelectrochemical reactions.
j) Advance in the knowledge of electrode material behaviour in the sonoelectrochemical reactions.
k) To explore new and exciting applications of sonoelectrochemical reactions in the nanomaterials production.
l) To produce the engineering knowledge for the design of sonoelectrochemical reactors.
m) To advance in the design of equipment to continuous process.