Deskripsi Lengkap
| Bahasa : | ind |
| Sumber Pengatalogan : | LibUI ind rda |
| Tipe Konten : | text (rdacontent) |
| Tipe Media : | unmediated (rdacontent); Computer (rdadontent) |
| Tipe Carrier : | volume (rdacarrier); online resource (rdacarrier) |
| Deskripsi Fisik : | xiii, 55 pages : illustration ; 28 cm + appendix |
| Naskah Ringkas : | |
| Lembaga Pemilik : | Universitas Indonesia |
| Lokasi : | Perpustakaan UI, Lantai 3 |
- Ketersediaan
- File Digital: 1
- Ulasan
- Sampul
- Abstrak
| No. Panggil | No. Barkod | Ketersediaan |
|---|---|---|
| S56100 | 14-21-430472696 | TERSEDIA |
| Tidak ada ulasan pada koleksi ini: 20386302 |
Abstrak
Fabrikasi Dye-Sensitized Solar Cell (DSSC)menggunakan klorofil dan rhodamin B telah berhasil dilakukan.Bahan semikonduktor sebagai elektroda kerja dalam DSSC yang digunakan adalah TiO2nanotube yang ditumbuhkan pada plat titanium dengan teknik anodisasi, dilanjutkan dengan kalsinasi pada 500?C untuk membentuk fasa kristal TiO2. Karakterisasi terhadap Ti/TiO2-NT meliputi Field Emission Scanning Electron Microscope(FE-SEM), UV-VisDiffuse Reflectance Spectrometry (DRS), X-ray Diffraction (XRD), Fourier Transform Infra Red (FTIR), dan Linear Sweep Voltametry (LSV). Gambar FE-SEM menunjukkan bahwa TiO2 bermorfologi tube dengan diameter 88.99nm. Pola XRD menunjukkan puncak TiO2 anatase pada sudut 2?: 25, 37,48,54, dan 55 derajat. Karakterisasi UV-Vis menunjukkan nilai bandgap TiO2 sebesar 3.24 eV. Spektrum FTIR menunjukkan keberadaan vibrasi ikatan ~Ti-O-Ti~. Kurva LSV menunjukkan bahwa TiO2 aktif pada daerah UV. Plat Ti/TiO2 dilapisi oleh zat warna melalui teknik elektroforesis dengan variasi waktu 8,10,12, dan 14 menit. Spektrum UV-Vis DRS dari TiO2 yang terlapisi zat warna menghasilkan puncak khas dari masing-masing zat warna, menunjukkan bahwa zat warna telah menempel pada TiO2. Pengujian terhadap performa DSSC menunjukkan nilai efiensi sebesar 0.3565% untuk Ti/TiO2-NT/Klorofil; 0.4351% untuk Ti/TiO2-NT/Rhodamin B; dan 0.3963% untuk Ti/TiO2-NT/Klorofil-Rhodamin B.Indonesia
Fabrication of Dye-Sensitized Solar Cell (DSSC) employing chlorophyll and rhodamine B has been successfully carried out. TiO2 nanotubes which was grown on titanium plate by an anodizationtechniques, followed by calcination at 500?C to form a crystalline phase of TiO2, was used as working electrode in the DSSC. Characterization of the Ti/TiO2-NT included Field Emission Scanning Electron Microscope (FE-SEM), UV-Vis Diffuse Reflectance Spectrometry (DRS), X-ray Diffraction (XRD), Fourier Transform Infra Red (FTIR), and Linear Sweep Voltametry (LSV). FE-SEM images showed the tube morphologies of TiO2 with a diameter of 88,99 nm. XRD pattern showed the TiO2 anatase peak at 2? : 25, 37, 48, 54, dan 55 degree. UV-Vis DRS characterization revealed that the bandgap of the prepared TiO2is 3.24 eV. FTIR spectrum showed the presence of ~Ti?O-Ti~ vibration. LSV curves obtained indicate that the TiO2is active in the UV region . The Ti/TiO2 plate then was being coated with the dye through electrophoresis technique with time variation of 8, 10, 12, and 14 minutes. UV-Vis DRS spectrum of the dyes coated TiO2 showed that all typical dyes realted peaks were observed, indicate that the dyes was attached to the Ti/TiO2-NT. Performance tests of the assembled DSSC showed the efficiencies of 0.3565%for the Ti/TiO2-NT/Chlorophyll; 0.4351% for the Ti/TiO2-NT/Rhodamine B; and 0.3963% for the Ti/TiO2-NT/Chlorophyll/Rhodamine B respectively.
Fabrication of Dye-Sensitized Solar Cell (DSSC) employing chlorophyll and rhodamine B has been successfully carried out. TiO2 nanotubes which was grown on titanium plate by an anodizationtechniques, followed by calcination at 500?C to form a crystalline phase of TiO2, was used as working electrode in the DSSC. Characterization of the Ti/TiO2-NT included Field Emission Scanning Electron Microscope (FE-SEM), UV-Vis Diffuse Reflectance Spectrometry (DRS), X-ray Diffraction (XRD), Fourier Transform Infra Red (FTIR), and Linear Sweep Voltametry (LSV). FE-SEM images showed the tube morphologies of TiO2 with a diameter of 88,99 nm. XRD pattern showed the TiO2 anatase peak at 2? : 25, 37, 48, 54, dan 55 degree. UV-Vis DRS characterization revealed that the bandgap of the prepared TiO2is 3.24 eV. FTIR spectrum showed the presence of ~Ti?O-Ti~ vibration. LSV curves obtained indicate that the TiO2is active in the UV region . The Ti/TiO2 plate then was being coated with the dye through electrophoresis technique with time variation of 8, 10, 12, and 14 minutes. UV-Vis DRS spectrum of the dyes coated TiO2 showed that all typical dyes realted peaks were observed, indicate that the dyes was attached to the Ti/TiO2-NT. Performance tests of the assembled DSSC showed the efficiencies of 0.3565%for the Ti/TiO2-NT/Chlorophyll; 0.4351% for the Ti/TiO2-NT/Rhodamine B; and 0.3963% for the Ti/TiO2-NT/Chlorophyll/Rhodamine B respectively.