SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES
Theoretically, silicon's large specific capacity makes it a promising lithium-ion battery anode material. Unfortunately, during charge discharge, silicon suffers up to 300 % of volume changes. An excessive solid electrolyte interface layer is formed as a result of the anode cracking and c...
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id-itb.:646562022-05-31T14:19:21ZSYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES Eldona, Calvin Indonesia Theses Lithium-ion Battery, silicon nanowire, polyaniline, anode, metal assisted chemical etching INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/64656 Theoretically, silicon's large specific capacity makes it a promising lithium-ion battery anode material. Unfortunately, during charge discharge, silicon suffers up to 300 % of volume changes. An excessive solid electrolyte interface layer is formed as a result of the anode cracking and crumbling. Silicon's limited conductivity can also hinder the process of lithiation/delithiation. As a result, charge-discharge stability and capacity may be compromised. Forming silicon nanowire structures and covering them with conductive polymers can solve these issues. Using the Metal Assisted Chemical Etching approach, silicon nanowires were created using an silver (Ag) catalyst. In order to achieve the best nanowire structure and procedure, the etching time was optimized. Polyaniline polymerized by the oxidative polymerization method was applied to silicon nanowires treated for 120 minutes on p-type silicon wafers. Silicon nanowires with a height of 14 ?m were characterized by Scanning Electron Microscope and found to have polyaniline coatings on their surfaces. The Fourier-Transform Infrared Spectroscopy and X-Ray Diffraction analyses revealed the formation of polyaniline in the silicon nanowire samples without the presence of contaminants. After that, a lithium ion half-cell battery is assembled using the silicon nanowire-polyaniline anodes. EIS and Battery Analyzer were used to evaluate the anode's electrochemical performance. Electrochemical Impedance Spectoscopy (EIS) showed that anodes made of silicon nanowires and polyaniline can boost the battery's conductivity. An anode made of silicon nanowires and polyaniline can sustain its capacity up to a current of 2 mA/cm2 while testing the battery's rate capabilities. The electrochemical performance of lithium ion batteries can be improved by the creation of silicon nanowire structures and the application of polyaniline coating. text |
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Theoretically, silicon's large specific capacity makes it a promising lithium-ion
battery anode material. Unfortunately, during charge discharge, silicon suffers up
to 300 % of volume changes. An excessive solid electrolyte interface layer is formed
as a result of the anode cracking and crumbling. Silicon's limited conductivity can
also hinder the process of lithiation/delithiation. As a result, charge-discharge
stability and capacity may be compromised. Forming silicon nanowire structures
and covering them with conductive polymers can solve these issues.
Using the Metal Assisted Chemical Etching approach, silicon nanowires were
created using an silver (Ag) catalyst. In order to achieve the best nanowire
structure and procedure, the etching time was optimized. Polyaniline polymerized
by the oxidative polymerization method was applied to silicon nanowires treated
for 120 minutes on p-type silicon wafers. Silicon nanowires with a height of 14 ?m
were characterized by Scanning Electron Microscope and found to have
polyaniline coatings on their surfaces. The Fourier-Transform Infrared
Spectroscopy and X-Ray Diffraction analyses revealed the formation of polyaniline
in the silicon nanowire samples without the presence of contaminants. After that, a
lithium ion half-cell battery is assembled using the silicon nanowire-polyaniline
anodes. EIS and Battery Analyzer were used to evaluate the anode's
electrochemical performance. Electrochemical Impedance Spectoscopy (EIS)
showed that anodes made of silicon nanowires and polyaniline can boost the
battery's conductivity. An anode made of silicon nanowires and polyaniline can
sustain its capacity up to a current of 2 mA/cm2
while testing the battery's rate
capabilities. The electrochemical performance of lithium ion batteries can be
improved by the creation of silicon nanowire structures and the application of
polyaniline coating. |
| format |
Theses |
| author |
Eldona, Calvin |
| spellingShingle |
Eldona, Calvin SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES |
| author_facet |
Eldona, Calvin |
| author_sort |
Eldona, Calvin |
| title |
SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES |
| title_short |
SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES |
| title_full |
SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES |
| title_fullStr |
SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES |
| title_full_unstemmed |
SYNTHESIS AND ELECTROCHEMICAL PERFORMANCE OF SILICONE NANOWIRE INTEGRATED POLYANILINE FOR ANODE MATERIALS OF LITHIUM ION BATTERIES |
| title_sort |
synthesis and electrochemical performance of silicone nanowire integrated polyaniline for anode materials of lithium ion batteries |
| url |
https://digilib.itb.ac.id/gdl/view/64656 |
| _version_ |
1822004625672241152 |