Analisa Pengaruh Temperatur Hidrotermal Dan Komposisi Glycin Pada Proses Sintesa Anoda Fe2O3 Terhadap Performa Elektrokimia Baterai Ion Lithium

Putra, Eriek Aristya Pradana (2015) Analisa Pengaruh Temperatur Hidrotermal Dan Komposisi Glycin Pada Proses Sintesa Anoda Fe2O3 Terhadap Performa Elektrokimia Baterai Ion Lithium. Masters thesis, Institut Technology Sepuluh Nopember.

[thumbnail of 2713201001-Master Thesis.pdf]
Preview
Text
2713201001-Master Thesis.pdf - Published Version

Download (4MB) | Preview

Abstract

Fe2O3 merupakan salah satu kandidat terbaik yang dapat digunakan menjadi
anoda baterai lithium ion karena Kapasitas yang besar mencapai 1005mAh/g,
ketersediaan luas, ramah lingkungan, murah dan proses pengolahan mudah.
Dalam Penelitian ini telah berhasil disintesa Fe2O3 menggunakan metode
hidrothermal dengan melakukan penambahan glycine sebesar 3, 6, dan 9 mmol
pada temperatur hidrothermal 140, 160 dan 180 OC selama 10 jam. Morfologi
yang diperoleh berupa Fe2O3 nanoellipses dengan ukuran antara 90-200 nm.
Hasil yang diperoleh didapatkan kapasitas discharge awal tertinggi sebesar 634
mAh/g pada range antara 0.01 sampai 3 V untuk spesimen dengan penambahan
glycine sebesar 9 mmol pada temperatur hidrothermal 160 OC. Hal ini
menunjukan jika Fe2O3 berpotensial untuk digunakan sebagai anoda baterai
Lithium ion..
==========================================================================================================
Abstract: Fe2O3 is one of the best candidates that can be applied as an anode for
lithium ion batteries because of a large theoretical capacity 1005 mAh/g, wide
availability, low production cost and environmentally friendly. In this study has
been successfully synthesized Fe2O3 using hydrothermal method by adding
glycine at 3, 6, and 9 mmol with variation of hydrothermal temperature of 140,
160 and 180 °C for 10 hrs. SEM images show that the morphology of Fe2O3 is
nano-ellipses with sizes between 90-200 nm. The highest specific discharge
capacity of 634 mAh/g is obtained for specimens with the addition of glycine by 9
mmol and hydrothermal temperature of 160 °C. This result demonstrates that
Fe2O3 has a high potential as anode material for lithium ion battery.

Item Type: Thesis (Masters)
Additional Information: RTMt 621.312 424 Put a
Uncontrolled Keywords: Fe2O3, Temperatur Hidrothermal, Glicine,Baterai lithium-ion, Anoda.
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK2921 Lithium cells.
Divisions: Faculty of Industrial Technology > Material & Metallurgical Engineering > 27101-(S2) Master Thesis
Depositing User: Mr. Tondo Indra Nyata
Date Deposited: 11 Dec 2019 07:50
Last Modified: 11 Dec 2019 07:50
URI: http://repository.its.ac.id/id/eprint/72323

Actions (login required)

View Item View Item