A photograph of Chris Thomas holding an award he received from the UNT Multicultural Center. It is to recognize him as the "Most Supportive Staff Member" in his department. Uyen Tran is standing beside him.

A picture of a young woman speaking at the 2004 Multicultural Center Awards ceremony. She is standing behind a podium and is wearing a windbreaker with the patches of the UNT sorority Zeta Phi Beta on it. The podium also has the name of UNT on it.

Email from Rick Walker to Bayless about the Texas Stonewall Democratic Caucus board of directors meeting to be held in Austin.

The fabrication and electrochemical performance of co-fired,LSM-SYSZ [i.e., La0.65Sr0.30MnO3 (LSM) - (Sc2O3)0.1(Y2O3)0.01(ZrO2)0.89] supported thin-film cells were examined using humidified hydrogen as a fuel. Co-firing of bi-layers and tri-layers was successful at 1250 C by optimizing the amount of carbon pore formers. A power density of a factor of 2.5 higher than that recently reported for the same type of cell at 800 C [3] was obtained for a cell with cobalt infiltration into the supporting cathode: the peak power densities were 455, 389, 285, 202, 141mW/cm2 at 800, 750, 700, 650, 600 C, respectively, and in most cases power densities at 0.7V exceeded more than 90 percent of the peak output. Increasing the cathode porosity from 43 to 53 percent improved peak power densities by as much as 1.3, shifting the diffusion limitation to high current densities. Cobalt infiltration into the support improved those by as much as a factor of 2 due to a significant reduction in non-ohmic resistance. These results demonstrate that cobalt catalyst-infiltrated LSM can be effective and low-cost supporting electrodes for reduced temperature, thin film SOFCs.

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