Fiber-type electrodes with 20 mol%Al-added nickel hydroxide were prepared by electrodeposition on nickel-plated carbon fibers. Discharge curves of the nickel-metal hydride (Ni-MH) test cells containing the fiber-type electrodes exhibited a wide plateau region at a 1.3 V discharge voltage and a high 305 mAh/g discharge capacity at the 1 C rate. Even after a 200 C charging, a 220 mAh/g discharge capacity was maintained. Eased on the cycle-life performance measurement, the cell exhibited a good voltage retention after 700 cycles. Synchrotron XRD patterns showed that the as-prepared and discharged fiber-type electrodes consisted of alpha-Ni(OH)(2) phases. An approximate 80% alpha-Ni(OH)(2) phase was transformed into a gamma-NiOOH phase after charging to 318 mAh/g. The active material layer contracted during the charge process, but returned to its original volume after discharging. The active-material layer did not expand more than its original volume, thus maintaining contact between the active material and fiber substrate which leads to a good voltage retention during cycling. (C) 2013 The Electrochemical Society. [DOI: 10.1149/2.028304jes] All rights reserved.