en Research Paper Research Paper <span style="font-size:12pt"><span style="line-height:150%"><span new="" roman="" style="font-family:" times=""><span style="font-size:11.0pt"><span style="line-height:150%"><span style="background-color:#ffffff;">Nowadays metal oxide nanoparticles and transition metal dichalcogenides play </span><span style="background:yellow"><span style="background-color:#ffffff;">a vital</span></span><span style="background-color:#ffffff;"> role in various areas like optical sensors, solar cells, energy storage devices, gas sensors and biomedical applications. In the current research work, we synthesized </span><span style="background:yellow"><span style="background-color:#ffffff;">ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanoparticles by hydrothermal method.</span></span><span style="background-color:#ffffff;"> The ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanoparticles were synthesis using precursors such as ZrOCl</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">.8H</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">O and Na</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">SeO</span>_{<span style="background-color:#ffffff;">3</span>}<span style="background-color:#ffffff;">.5H</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">O in the addition of surfactant cetyl trimethyl ammonia bromide CTAB and reductant hydrazine hydrate, respectively. By using synthesized ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanopowder thick films were developed on a glass substrate </span></span></span></span></span></span><br> <span style="font-size:11.0pt"><span style="line-height:107%"><span new="" roman="" style="font-family:" times=""><span style="background-color:#ffffff;">using the screen printing method. The structural properties of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> powder were studied by X-ray diffraction (XRD). The X-ray diffraction analysis revealed that the hexagonal crystal structure and crystalline size were found to be 55.75 nm. The thick films of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> were characterized by field emission scanning electron microscopy (FESEM) and energy dispersive X-ray analysis (EDAX). The surface morphological analysis of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanostructured thick film shows hierarchical nanoparticles. The energy band gap of synthesized powder was calculated using a Tauc plot from UV-visible spectroscopy. The gas-sensing properties of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> thick films were studied. The developed ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> thick films show maximum sensitivity and selectivity towards the ammonia NH</span>_{<span style="background-color:#ffffff;">3</span>}<span style="background-color:#ffffff;"> gas at an operating temperature of 120 &deg;C and the gas concentration was 500 ppm. The developed thick films show fast response and recovery time.</span></span></span></span><span style="font-size:12pt"><span style="line-height:150%"><span new="" roman="" style="font-family:" times=""><span style="font-size:11.0pt"><span style="line-height:150%"><span style="background-color:#ffffff;">Nowadays metal oxide nanoparticles and transition metal dichalcogenides play </span><span style="background:yellow"><span style="background-color:#ffffff;">a vital</span></span><span style="background-color:#ffffff;"> role in various areas like optical sensors, solar cells, energy storage devices, gas sensors and biomedical applications. In the current research work, we synthesized </span><span style="background:yellow"><span style="background-color:#ffffff;">ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanoparticles by hydrothermal method.</span></span><span style="background-color:#ffffff;"> The ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanoparticles were synthesis using precursors such as ZrOCl</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">.8H</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">O and Na</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">SeO</span>_{<span style="background-color:#ffffff;">3</span>}<span style="background-color:#ffffff;">.5H</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;">O in the addition of surfactant cetyl trimethyl ammonia bromide CTAB and reductant hydrazine hydrate, respectively. By using synthesized ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanopowder thick films were developed on a glass substrate </span></span></span></span></span></span><br> <span style="font-size:11.0pt"><span style="line-height:107%"><span new="" roman="" style="font-family:" times=""><span style="background-color:#ffffff;">using the screen printing method. The structural properties of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> powder were studied by X-ray diffraction (XRD). The X-ray diffraction analysis revealed that the hexagonal crystal structure and crystalline size were found to be 55.75 nm. The thick films of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> were characterized by field emission scanning electron microscopy (FESEM) and energy dispersive X-ray analysis (EDAX). The surface morphological analysis of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> nanostructured thick film shows hierarchical nanoparticles. The energy band gap of synthesized powder was calculated using a Tauc plot from UV-visible spectroscopy. The gas-sensing properties of ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> thick films were studied. The developed ZrSe</span>_{<span style="background-color:#ffffff;">2</span>}<span style="background-color:#ffffff;"> thick films show maximum sensitivity and selectivity towards the ammonia NH</span>_{<span style="background-color:#ffffff;">3</span>}<span style="background-color:#ffffff;"> gas at an operating temperature of 120 &deg;C and the gas concentration was 500 ppm. The developed thick films show fast response and recovery time.</span></span></span></span> Hydrothermal method,Transition metal dichalcogenides,Thick films,Gassensor,Tauc 23 33 http://ijmse.iust.ac.ir/browse.php?a_code=A-10-5336-1&slc_lang=en&sid=1 Tushar Wagh tusharsw22@gmail.com 1800319475328460019254 1800319475328460019254 Yes Department of Physics, Deola Education Society’s Karmaveer Ramraoji Aher ASC College, Deola, Tal. -Deola, Dist.-Nashik, Maharashtra-423102, India Sagar Mane manesagar6714@gmail.com 1800319475328460019255 1800319475328460019255 No Department of Physics, MVP’s K.A.A.N.M. Sonawane ACS College, Satana, Tal. -Satana, Dist.-Nashik, Maharashtra-423301, India Gotan Jain gotanjain@rediffmail.com 1800319475328460019256 1800319475328460019256 No Department of Physics, Maratha Vidya Prasarak Samaj’s Arts, Commerce and Science College, Nandgaon, Tal. - Nandgaon, Dist.- Nashik, Maharashtra-423106, India Madhavrao Deore deoremadhav63@gmail.com 1800319475328460019257 1800319475328460019257 No Material Research Laboratory, MVP’s, K.R.T. Arts, B.H. Commerce, A.M. Science College, Nashik, Shivajinagar, Gangapur Road, Nashik-422002, India