Seng oksida (ZnO) rods murni dan terdoping serium oksida (CeO₂) telah ditumbuhkan di atas substrat kaca dengan menggunakan metode hidrotermal. Penumbuhan ZnO rods memiliki dua tahapan proses utama, yaitu pelapisan seed (pembenihan) dan penumbuhan rods. Rasio konsentrasi Ce/ZnO adalah sebesar 1%, 5%, dan 10%. Efek dopan CeO₂ pada struktur dan morfologi ZnO rods dianalisa dengan X-ray diffraction (XRD), scanning electron microscope (SEM), energy dispersion X-ray (EDX), dan Fourier transform infrared (FTIR). Spektrum XRD dari ZnO rods murni dan terdoping CeO₂ memiliki fasa hexagonal wurtzite ZnO dengan tiga puncak tertinggi pada bidang kisi (100), (002), (101), serta fasa face-centered cubic CeO₂ pada bidang kisi (111) dan (200). Hasil analisis SEM mengonfirmasi bahwa bentuk ZnO murni dan terdoping CeO₂ adalah gumpalan hexagonal flower-like rods. Penambahan CeO₂ telah menggeser puncak spektrum FTIR ZnO murni dari 729 cm^-1 menjadi ~780 cm^-1.

CeO2; ZnO rods; kaca; hidrotermal; hexagonal flower-like

Aisah, N., Gustiono, D., Fauzia, V., Sugihartono, I. & Nuryadi, R. Synthesis and enhanced photocatalytic activity of Ce-Doped zinc oxide nanorods by hydrothermal method. IOP Conference Series: Materials Science And Engineering, 2017. IOP Publishing, 012037.

Aprilia, L., Hosoda, M., Nuryadi, R., Neo, Y., Barique, M. A., Udhiarto, A., Hartanto, D. & Mimura, H. 2019. Influence of water vapor on CO detection using a resonant microcantilever functionalized by Al-doped ZnO nanorods. Japanese Journal Of Applied Physics, 58, SBBH09.

Aprilia, L., Nuryadi, R., Gustiono, D., Nurmahmudi, Udhiarto, A., Hartanto, D., Yuliarto, B., Hosoda, M., Neo, Y. & Mimura, H. 2017. CO gas-induced resonance frequency shift of ZnO-functionalized microcantilever in humid air. Journal Of Nanomaterials, 2017, 7.

Balkhoyor, H. B., Rahman, M. M. & Asiri, A. M. 2016. Effect of Ce doping into ZnO nanostructures to enhance the phenolic sensor performance. RSC Advances, 6, 58236-58246.

Bomila, R., Srinivasan, S., Venkatesan, A., Bharath, B. & Perinbam, K. 2018. Structural, optical and antibacterial activity studies of Ce-doped ZnO nanoparticles prepared by wet-chemical method. Materials Research Innovations, 22, 379-386.

Chang, C.-J., Lin, C.-Y., Chen, J.-K. & Hsu, M.-H. 2014. Ce-doped ZnO nanorods based low operation temperature NO2 gas sensors. Ceramics International, 40, 10867-10875.

Dar, G., Umar, A., Zaidi, S., Ibrahim, A. A., Abaker, M., Baskoutas, S. & Al-Assiri, M. 2012. Ce-doped ZnO nanorods for the detection of hazardous chemical. Sensors And Actuators B: Chemical, 173, 72-78.

El-Sayed, A., Ismail, F., Khder, M., Hassouna, M. & Yakout, S. 2012. Effect of CeO2 doping on the structure, electrical conductivity and ethanol gas sensing properties of nanocrystalline ZnO sensors. International Journal On Smart Sensing & Intelligent Systems, 5.

Faisal, M., Ismail, A. A., Ibrahim, A. A., Bouzid, H. & Al-Sayari, S. A. 2013. Highly efficient photocatalyst based on Ce doped ZnO nanorods: controllable synthesis and enhanced photocatalytic activity. Chemical Engineering Journal, 229, 225-233.

Fangli, D., Ning, W., Zhang, D. & Yingzhong, S. 2010. Preparation, characterization and infrared emissivity study of Ce-doped ZnO films. Journal Of Rare Earths, 28, 391-395.

Ge, C., Xie, C. & Cai, S. 2007. Preparation And gas-sensing properties of Ce-doped ZnO thin-film sensors by dip-coating. Materials Science And Engineering: B, 137, 53-58.

Huang, Q., Fang, L., Chen, X. & Saleem, M. 2011. Effect of polyethyleneimine on the growth of ZnO nanorod arrays and their application in dye-sensitized solar cells. Journal Of Alloys And Compounds, 509, 9456-9459.

Kulandaisamy, A. J., Elavalagan, V., Shankar, P., Mani, G. K., Babu, K. J. & Rayappan, J. B. B. 2016. Nanostructured cerium-doped ZnO thin film–a breath sensor. Ceramics International, 42, 18289-18295.

Lang, J., Han, Q., Yang, J., Li, C., Li, X., Yang, L., Zhang, Y., Gao, M., Wang, D. & Cao, J. 2010. Fabrication and optical properties of Ce-doped ZnO nanorods. Journal Of Applied Physics, 107, 074302.

Nuryadi, R. & Mayasari, R. D. 2015. Zno/Au-Based surface plasmon resonance for CO2 gas sensing application. Applied Physics A, 122.

Perillo, P. M., Atia, M. N. & Rodríguez, D. F. 2018. Studies on the growth control of ZnO nanostructures synthesized by the chemical method. Matéria (Rio De Janeiro), 23.

Yan, L., Liu, J.-C., Lian, X.-X., Tan, L. & Zhao, F.-X. 2015. Morphology, photoluminescence and gas sensing of Ce-doped ZnO microspheres. Transactions Of Nonferrous Metals Society Of China, 25, 3657-3663.

Yayapao, O., Thongtem, S., Phuruangrat, A. & Thongtem, T. 2013. Sonochemical synthesis, photocatalysis and photonic properties of 3% Ce-doped ZnO nanoneedles. Ceramics International, 39, S563-S568.