DESAIN, FABRIKASI, DAN KARAKTERISASI SENSOR KELEMBABAN DAN SUHU BERBASIS TEKNOLOGI FILM TEBAL
Date
2026Jenis/Type
SkripsiSubtype
Undergraduate ThesesAuthor
Syafitri, Berliana
Syafutra, Heriyanto
Hermida, I Dewa Putu
Metadata
Show full item recordAbstract
Fabrikasi sensor kelembaban dan suhu pada satu substrat untuk
mendukung sistem pemantauan lingkungan terkoordinasi yang presisi dan
efisien. Penelitian ini mendesain, memfabrikasi, dan mengkarakterisasi sensor
kelembaban resistif dan suhu berbasis teknologi film tebal menggunakan
metode screen printing dan doctor blade. Material yang digunakan meliputi
pasta perak, PVA serta komposit PVA-TiO2 dengan variasi 5%, 10%, dan 15%.
Karakterisasi material menunjukkan PVA memiliki ukuran partikel 23,52 nm,
ketebalan lapisan sensitif 11,44 µm, ketebalan elektroda 20,00 µm, dan bersifat
semi-kristalin, sedangkan TiO2 berstruktur anatase. Komposit PVA-TiO2
memiliki distribusi partikel 300-400 nm, disertai peningkatan ketebalan lapisan
sensitif, serta variasi ketebalan elektroda. FTIR menginformasi TiO2
terintegrasi di dalam PVA melalui interaksi hidrogen. Kinerja sensor
kelembaban menunjukkan penurunan resistansi pada 60-90% RH. Sensor suhu
mengalami peningkatan resistansi seiring kenaikan suhu 30-80°C. The fabrication of humidity and temperature sensors on a single substrate
was carried out to support a coordinated environmental monitoring systems
that is precise and efficient. This study design, fabricate, and characterize
resistive humidity and temperature sensors based on thick film technology
using screen printing and doctor blade methodes. The materials used include
silver paste, PVA, and PVA-TiO2 composites with variations 5%, 10%, and
15%. Material characterization showed that PVA had a particle size of 23,52
nm, a sensitive layer thickness of 11,44 µm, an electrode thickness of 20,00 µm
and a semi-crystalline nature, whereas TiO2 exhibited and anatase structure.
The PVA-TiO2 composite had a particle distribution of 300-400 nm,
accompanied by an increase in sensitive layer thickness and variations in
electrode thickness. FTIR indicated that TiO2 was integrated into PVA through
hydrogen interaction. The humidity sensor showed a decrease in resistance at
60-90% RH. The temperature sensor exhibited an increase in resistance with
increasing temperature 30-80°C.
Collections
- UF - Physics [1261]

