EFEK TEMPERATUR CHEMICAL BATH DEPOSITION (CBD) PADA FABRIKASI DAN KARAKTERISASI LAPISAN TIPIS ZINC OXIDE (ZnO) NANORODS SEBAGAI SENSOR GAS ETHANOL

Adimas Ramadhan, NIM. 14620020 (2018) EFEK TEMPERATUR CHEMICAL BATH DEPOSITION (CBD) PADA FABRIKASI DAN KARAKTERISASI LAPISAN TIPIS ZINC OXIDE (ZnO) NANORODS SEBAGAI SENSOR GAS ETHANOL. Skripsi thesis, UIN SUNAN KALIJAGA YOGYAKARTA.

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Abstract

Research about temperature effect of chemical bath depositioin (CBD) to fabrication and characterization of zinc oxide (ZnO) nanorods thin films based gas sensing ethanol have been done. Ethanol belongs to the volatile organic compounds (VOCs) that are dangerous if inhaled by humans in high concentrations, so that need for gas detection. Temperature as kinetic controller of CBD process take effect to ZnO fabrication and characterization. Zno nanorods thin films synthesized onto glass substrat by dip-coating technique. Growth of rods use Zn(NO3)2.4H2O and HMTA (1:1) preccusor in chemical bath deposition method at temperature 75oC, 83oC, 87oC. Result of SEM showing ZnO CBD 83oC morphology form of nanorods evenly with diameter size is 95,56 nm, while ZnO CBD 75oC explain to nanorods constructed and ZnO CBD 87oC explain to nanorods unconstructed. The morphological support to XRD result explain there is low-high peaks shift as illustration a process occurs of nanorods construction and unconstruction. All of ZnO sample have hexagonal wurzite that confirm ICDS-094004 card. Ehanol gas sensing tested at temperature operation 100oC, 150oC, 200oC. Highly sensitivity of sensor up to 77,31% for ZnO CBD 75oC at test temperature 100oC. ZnO CDB 83oC sample at temperature operation 200oC have highest respon on 2.22 min (tres) and 0,45 min (trec). Time respond and recovery will increase along with increasing of test temperature. Test temperature at 100oC is the optimal which sensitivity up to 77,31% (ZnO CBD 75oC) and 56,5% (ZnO CBD 83oC).

Item Type: Thesis (Skripsi)
Additional Information / Pembimbing: Asih Melati, M.Sc
Uncontrolled Keywords: Chemical bath deposition, ethanol, gas sensing, temperature effect, zinc oxide nanorods thin film
Subjects: Fisika
Divisions: Fakultas Sains dan Teknologi > Fisika (S1)
Depositing User / Editor: Drs. Mochammad Tantowi, M.Si.
Date Deposited: 01 Feb 2019 08:13
Last Modified: 01 Feb 2019 08:13
URI: http://digilib.uin-suka.ac.id/id/eprint/32901

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