@article{article_336125, title={Effect of Current Density on Production of Sn-Cu/CNT Composite Coatings By Pulse Electrodeposition}, journal={Academic Platform - Journal of Engineering and Science}, volume={6}, pages={76–86}, year={2018}, DOI={10.21541/apjes.336125}, author={Gül, Harun and Uysal, Mehmet}, keywords={Li-ion battery,alloy composite coating,pulse electrodeposition}, abstract={<p class="MsoNormal" style="margin-top:0cm;margin-right:28.3pt;margin-bottom:.0001pt;margin-left:1cm;text-align:justify;line-height:normal;"> <span style="font-size:10pt;font-family:’Times New Roman’, serif;">Li ion batteries have started to
become the main power source as batteries that can be recharged for portable
electronic devices with an increasing interest nowadays. However, since the
graphite used as an anode material in commercial batteries cannot exhibit
sufficient performance, alternate quests continue. For this reason, studies are
being made for the use of alloyed matrix composite anodes. In this study,
composite anode with Sn-Cu matrix is ​​fabricated by pulse electrodeposition
and the effect of current density is investigated. Sn-Cu /CNT composites were
prepared by electroplating on a copper substrate in a pyrophosphate bath.
Composite materials produced were electrochemically tested as anode in CR2016
button cell. The physical and electrochemical properties of anodic materials
were investigated using various analysis techniques. According to the results,
the Sn-Cu /CNT composite anode showed the best cycle performance in the pulse
current (PC) electrocomposite coating with a current density of 80 mAcm <sup>-2 </sup>. </span> </p> <p> </p>}, number={1}, publisher={Akademik Perspektif Derneği}