Material elektrokatalis berbasis bafe12o19 dan batio3 terdoping nikel dengan komposit polianilina = Electrocatalyst materials of ni-doped bafe12o19  and  batio3 with its polyaniline composite

Mohammad Khotib, author

Material elektrokatalis berbasis bafe12o19 dan batio3 terdoping nikel dengan komposit polianilina = Electrocatalyst materials of ni-doped bafe12o19 and batio3 with its polyaniline composite

Mohammad Khotib; Bambang Soegijono, promotor; Zainal Alim Mas`ud, co-promotor; Vivi Fauzia, examiner; Budhy Kurniawan, examiner; Emil Budianto, examiner; Nurlely, examiner; Tun Tedja Irawadi, examiner (Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2019)

Abstrak

Elektrokatalis OER merupakan komponen penting dalam penyimpanan energi, konversi energi, dan elektrolisis air. Penelitian ini bertujuan untuk mendapat elektrokatalis berbasis BaFe12O19 (BHF) dan BaTiO3(BTO) terdoping nikel dengan komposit polianilina. Material elektrokatalis BaFe12O19 terdoping Ni dibuat melalui teknik kopresipitasi pada suhu 4oC dengan suhu sintering 750oC. Material BaTiO3 terdoping Ni dibuat melalui teknik sinter berbantuan hidrotermal tekanan rendah. Komposit BHF dengan polianilina (PANI) dan BTO dengan polianilina dilakukan dengan teknik polimerisasi in situ.

Berdasarkan pengukuran XRD, diperoleh BHF fase tunggal dan ada pengotor Fe2O3 pada BHF terdoping Ni (BHFNi) dan kompositnya dengan PANI. Doping Ni dan komposit PANI meningkatkan volume unit sel dari BHF. BTO fase tunggal diperoleh pada suhu sinter 800oC selama 2 jam, sedangkan pada BTO doping Ni terdapat fase BaCO3 dan pada komposit PANI terdapat pengotor BaSO4. Kinerja elektrokatalis Oxygen Evolution Reaction (OER) dalam medium NaOH meningkat dengan adanya doping Ni dan komposit polianilina pada BHF dan BTO. Campuran BHFNi-BTONi-PANI (25:75) menunjukkan kinerja elektrokatalis OER terbaik dalam medium NaOH berdasarkan parameter nilai densitas arus dan potensial berlebihnya. Sistem redoks Ni3+/2+, Fe4+/3+, Ti4+/3+ dan sistem lokalisasi elektron dalam PANI menjadi faktor yang mempengaruhi kinerja OER yang baik.

Oxygen Evolution Reaction (OER) electrocatalyst is an important component in energy storage, energy conversion and electrolysis of water. This study was aimed to obtain oxygen evolution reaction electrocatalyst based on BaFe12O19 (BHF), BaTiO3 (BTO), Ni-doped BaFe12O19 (BHFNi), and Ni-doped BaTiO3 (BTONi), and its composite with polyaniline. Electrocatalyst of BHF and BHFNi were synthesized by co-precipitation at 4oC with sintering temperature of 750oC. BTO and BTONi were prepared through a low pressure hydrothermal assisted sintering technique. the polyaniline composites were carried out by in situ polymerization at 0-4oC. A single phase BHF was obtained on undoped BHF, and Fe2O3 impurities were presence on BHFNi and its composite with PANI. Ni doping decrease on cell unit volume of BHF, while PANI composite increases cell unit volume of BHF. Single phase BTO was obtained through sintering at 800oC during 2 hours, while BaCO3 phase was appeared on Ni-doped BTO and BaSO4 was appeared on its PANI composite.
Based on overpotential and charge transfer coefficient, BHF and BTO performances as OER electrocatalytic in the NaOH medium were increased with present nickel and composite of polyaniline. The mixture of BHFNiPANI-BTONiPANI (25:75) shows the best performance of OER electrocatalyst in NaOH medium based on the parameters of current density and overpotential. The Ni3+/2+, Fe4+/3+, Ti4+/3+ redox systems and the electron localization system in PANI are factors that influence the good performance of there OER electrocatalysts

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Kata Kunci

BHFNi-PANI

BTONi-PANI

kopresipitasi

hidrotermal tekanan rendah

elektrokatalis

Metadata

Jenis Koleksi :	UI - Disertasi Membership
No. Panggil :	D2682
Entri utama-Nama orang :	Mohammad Khotib, author


Entri tambahan-Nama orang :	Bambang Soegijono, promotor Zainal Alim Mas`ud, co-promotor Vivi Fauzia, examiner Budhy Kurniawan, examiner Emil Budianto, examiner Nurlely, examiner Tun Tedja Irawadi, examiner
Entri tambahan-Nama badan :	Universitas Indonesia. Fakultas Matematika dan Ilmu Pengetahuan Alam

Program Studi :	Ilmu Bahan-Bahan dan Material
Subjek :	Chemical Elements
Penerbitan :	Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2019

Bahasa :	ind
Sumber Pengatalogan :	LibUI ind rda
Tipe Konten :	text
Tipe Media :	unmediated ; computer
Tipe Carrier :	volume ; online resources
Deskripsi Fisik :	v, 91 pages : illustration ; 28 cm + appendix
Naskah Ringkas :
Lembaga Pemilik :	Universitas Indonesia
Lokasi :	Perpustakaan UI, lantai 3

Ketersediaan
Ulasan
Sampul

No. Panggil	No. Barkod	Ketersediaan
D2682	07-20-919450546	TERSEDIA

Ulasan:

Tidak ada ulasan pada koleksi ini: 20493396

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