The fabrication and evaluation of a passive, air-breathing, membraneless microfluidic direct methanol fuel cell (ML-pDMFC) using a methanol-tolerant Ag/Pt/CP cathode is presented here. We previously proposed that due to its high tolerance to methanol and the good activity towards the oxygen reduction reaction in alkaline medium, this catalyst could be useful to reduce the methanol crossover effect in direct methanol fuel cells. Therefore, in order to demonstrate it, we designed and fabricated a microfluidic device that allowed the evaluation of the cathode in a high fuel concentration environment, using up to 5 M MeOH in 0.5 M KOH in passive mode. The results confirmed the high tolerance to MeOH and the ORR selectivity of the Ag/Pt/CP cathode, in contrast with a Pt/CP cathode, where performance decreased severely due to the methanol crossover. Employing the methanol-tolerant cathode, it was possible to obtain a power density of 2.4 mW cm(-2). Additionally, the durability studies revealed more stability for the ML-mu DMFC using the bimetallic catalyst, compared with Pt/CP. (C) 2017 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.