论文信息 - High-Performance Solid Acid Fuel Cells Through Humidity Stabilization

High-Performance Solid Acid Fuel Cells Through Humidity Stabilization

Although they hold the promise of clean energy, state-of-the-art fuel cells based on polymer electrolyte membrane fuel cells are inoperable above 100°C, require cumbersome humidification systems, and suffer from fuel permeation. These difficulties all arise from the hydrated nature of the electrolyte. In contrast, “solid acids” exhibit anhydrous proton transport and high-temperature stability. We demonstrate continuous, stable power generation for both H2/O2 and direct methanol fuel cells operated at ∼250°C using a humidity-stabilized solid acid CsH2PO4 electrolyte.

S. Haile | D. Boysen | T. Uda | C. Chisholm

[1] I. Parkinson,et al. Osmium Isotope Heterogeneity in the Constituent Phases of Mid-Ocean Ridge Basalts , 2004, Science.

[2] S. Haile,et al. High-Temperature Behavior of CsH2PO4 under Both Ambient and High Pressure Conditions , 2003 .

[3] S. Haile,et al. Instability of sulfate and selenate solid acids in fuel cell environments , 2003 .

[4] J. Otomo,et al. Protonic conduction of CsH2PO4 and its composite with silica in dry and humid atmospheres , 2003 .

[5] Keith Scott,et al. An improved-performance liquid-feed solid-polymer-electrolyte direct methanol fuel cell operating at near-ambient conditions , 2002 .

[6] K. Jüttner,et al. Conducting polymers as ion-exchangers for water purification , 2001 .

[7] Sossina M. Haile,et al. Solid acids as fuel cell electrolytes , 2001, Nature.

[8] R. Huggins. Solid State Ionics , 1989 .

[9] P. W. Richter,et al. High-pressure phase relations of RbH2PO4, CsH2PO4, and KD2PO4 , 1978 .