Announcement for Downloading full text filePlease respect the Copyright Act.
All digital full text dissertation and theses from this website are authorized the copyright owners. These copyrighted full-text dissertation and theses can be only used for academic, research and non-commercial purposes. Users of this website can search, read, and print for personal usage. In respect of the Copyright Act of the Republic of China, please do not reproduce, distribute, change, or edit the content of these dissertations and theses without any permission. Please do not create any work based upon a pre-existing work by reproduction, Adaptation, Distribution or other means.
URN etd-0829117-181739 Statistics This thesis had been viewed 244 times. Download 0 times. Author Jain-yu Chen Author's Email Address email@example.com Department Mechanical Engineering Year 2016 Semester 2 Degree Master Type of Document Master's Thesis Language zh-TW.Big5 Chinese Page Count 55 Title Application of electro-forcespinning technique for the fabrication of Pd nanowires Keyword Three electrode method Pd nanofibers Electro-forcespinning Electro-forcespinning Pd nanofibers Three electrode method Abstract The purpose of this study is to produce Pd nanofibers via electro forcespinning technique, applying on the cathode catalyst in order to reduce the cost of fuel cells. Thus, we replaced the traditional electro spinning with the another electro-spinning which was produced through accelerating the spinning of nano-fibers and acquired the Pd nanofibers with the average diameter of 96 nm and spun 25 ml per hour of Pd solution.It significantly increased the efficiency of production of nano-fibers.The technique combined the advantages of traditional electro-spinning and forcespinning, and it can quickly acquire nanofibers. In addition, we use three-electrode method on the Pd nanofibers, and we found that when Pd solution using 3M hydrochloric acid was prepared at a spinning of 2000 rpm, the Pd nanofibers were the best, the absorption charge of hydrogen was 1.95 × 10−4 C. Advisor Committee Min-Hsing Chang - advisor
Ching-chih Tai - co-chair
Wei-Hsin Chen - co-chair
Files Date of Defense 2017-07-18 Date of Submission 2017-08-30