Your search keyword '"Hase, Yogesh"' showing total 6 results

1. Enhanced photoresponse of Cu2ZnSnS4 absorber thin films fabricated using multi-metallic stacked nanolayers.

Author

Pandharkar, Subhash, Hase, Yogesh, Shah, Shruti, Doiphode, Vidya, Waghmare, Ashish, Punde, Ashvini, Shinde, Pratibha, Rahane, Swati, Bade, Bharat, Ladhane, Somnath, Prasad, Mohit, Patole, Shashikant P., and Jadkar, Sandesh

Published

2023

2. Self-biased photodetector using 2D layered bismuth triiodide (BiI3) prepared using the spin coating method.

Author

Punde, Ashvini L., Shah, Shruti P., Hase, Yogesh V., Waghmare, Ashish D., Shinde, Pratibha S., Bade, Bharat R., Pathan, Habib M., Prasad, Mohit, Patole, Shashikant P., and Jadkar, Sandesh

Published

2022

3. 2D alignment of zinc oxide@ZIF8 nanocrystals for photoelectrochemical water splitting.

Author

Shinde, Pratibha, Sharma, Vidhika, Punde, Ashvini, Waghmare, Ashish, Vairale, Priti, Hase, Yogesh, Pandharkar, Subhash, Bhorde, Ajinkya, Aher, Rahul, Nair, Shruthi, Doiphode, Vidya, Jadkar, Vijaya, Patil, Nilesh, Rondiya, Sachin, Prasad, Mohit, and Jadkar, Sandesh

Subjects

PHOTOELECTROCHEMISTRY, PHOTOELECTROCHEMICAL cells, NANOCRYSTALS, FIELD emission electron microscopy, CHEMICAL solution deposition, CARRIER density, THIN films, CONDUCTION bands

Abstract

Zinc oxide nano-sheets (ZNS) loaded with Zeolitic Imidazole Framework 8 (ZIF8) nanocrystals, i.e. (ZNS@ZIF8) thin films, were successfully synthesized using electrodeposition and facile chemical bath deposition (CBD) for photoelectrochemical (PEC) splitting of water. The formation of ZNS nano-sheets and ZIF8 nano-crystals has been confirmed by field emission scanning electron microscopy (FE-SEM), low angle X-ray diffraction (XRD), micro-Raman spectroscopy, and Fourier transform infrared (FTIR) spectroscopy analysis. PEC activity of ZNS@ZIF8 photoanodes was evaluated using the linear sweep voltammetry (LSV) technique, and the photocurrent density is significantly enhanced when ZNS are decorated with ZIF8 nanocrystals. Electrochemical impedance spectroscopy (EIS) revealed that ZNS@ZIF8 had low charge transfer resistance compared to pristine ZNS counterparts. This led to considerably improved PEC performance of ZNS@ZIF8. Mott–Schottky (M–S) analysis of ZNS and ZNS@ZIF8 revealed a shift of flat band potential for the ZNS and ZNS@ZIF8 photoanodes, respectively. The shift of flat band potential indicates a clear shift in the Fermi level towards the conduction band, leading to an efficient charge transfer process across the electrolyte. The carrier density of ZNS and ZNS@ZIF8 photoanodes increases from 3.67 × 1019 cm−3 to 4.11 × 1020 cm−3. The enhanced applied bias photon conversion efficiency (ABPE) of ZNS@ZIF8 photoanodes suggests that ZNS@ZIF8 can be a prospective candidate for PEC and optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published

2021

4. Highly stable and Pb-free bismuth-based perovskites for photodetector applications.

Author

Bhorde, Ajinkya, Nair, Shruthi, Borate, Haribhau, Pandharkar, Subhash, Aher, Rahul, Punde, Ashvini, Waghmare, Ashish, Shinde, Pratibha, Vairale, Priti, Waykar, Ravindra, Doiphode, Vidya, Jadkar, Vijaya, Hase, Yogesh, Rondiya, Sachin, Patil, Nilesh, Prasad, Mohit, and Jadkar, Sandesh

Subjects

PEROVSKITE, BAND gaps, PHOTODETECTORS, ABSORPTION coefficients, THIN films, SPIN coating

Abstract

Herein, we report the synthesis of highly stable, Pb-free bismuth iodide (BiI3 or BI), stoichiometric methylammonium bismuth iodide [(CH3NH3)3Bi2I9 or MA3Bi2I9 or s-MBI] and non-stoichiometric methylammonium bismuth iodide [(CH3NH3)2BiI5 or MA2BiI5 or Ns-MBI] perovskite thin films for photodetector applications. These films are synthesized at room temperature by a single step solution process spin coating method. The structural, optical, and morphological properties of these films were investigated using different characterization techniques such as XRD, Raman spectroscopy, FE-SEM, UV-Visible spectroscopy, etc. Formation of BI, s-MBI and Ns-MBI thin films is confirmed by XRD and Raman spectroscopy measurements. XRD analysis reveals that BI has a hexagonal crystal structure and a P63/mmc hexagonal space group for s-MBI and Ns-MBI. The optical properties of BI thin films show a high absorption coefficient (∼104 cm−1) and a band gap of ∼1.74 eV. Similarly, s-MBI films have a high absorption coefficient (∼103 cm−1) and an indirect band gap of ∼1.8 eV. Moving from s-MBI to Ns-MBI, the value of absorption coefficient is ∼103 cm−1 and the band gap corresponds to ∼2 eV. Finally, photodetectors based on the synthesized BI, s-MBI and Ns-MBI perovskites have been directly fabricated on FTO substrates. All photodetectors exhibited highly stable photo-switching behaviour along with excellent photoresponsivity and detectivity, with a fast response and recovery time. Our work demonstrates that Pb-free BI, s-MBI and Ns-MBI perovskites have great potential in the future for realizing stable photodetectors. [ABSTRACT FROM AUTHOR]

Published

2020

5. Enhanced photoresponse of Cu 2 ZnSnS 4 absorber thin films fabricated using multi-metallic stacked nanolayers.

Author

Pandharkar S, Hase Y, Shah S, Doiphode V, Waghmare A, Punde A, Shinde P, Rahane S, Bade B, Ladhane S, Prasad M, Patole SP, and Jadkar S

Abstract

Cu 2 ZnSnS 4 (CZTS) thin films have attracted considerable attention as potential candidates for photovoltaic absorber materials. In a vacuum deposition technique, a sputtering stacked metallic layer followed by a thermal process for sulfur incorporation is used to obtain high-quality CZTS thin films. In this work, for fabricating CZTS thin films, we have done a 3LYS (3 layers), 6LYS, and 9LYS sequential deposition of Sn/ZnS/Cu metal stack ( via . metallic stacked nanolayer precursors) onto Mo-coated corning glass substrate via . RF-sputtering. The prepared thin films were sulfurized in a tubular furnace at 550 °C in a gas mixture of 5% H 2 S + 95% Ar for 10 min. We further investigated the impact of the Sn/ZnS/Cu metal stacking layers on the quality of the thin film based on its response to light because metal inter-diffusion during sulfurization is unavoidable. The inter-diffusion of precursors is low in a 3-layer stack sample, limiting the fabricated film's performance. CZTS films with 6-layer and 9-layer stacks result in an improved photocurrent density of ∼38 μA cm -2 and ∼82 μA cm -2 , respectively, compared to a 3-layer sample which has a photocurrent density of ∼19 μA cm -2 . This enhancement can be attributed to the 9-layer approach's superior inter-diffusion of metallic precursors and compact, smooth CZTS microstructure evolution., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

6. Self-biased photodetector using 2D layered bismuth triiodide (BiI 3 ) prepared using the spin coating method.

Author

Punde AL, Shah SP, Hase YV, Waghmare AD, Shinde PS, Bade BR, Pathan HM, Prasad M, Patole SP, and Jadkar S

Abstract

Layered bismuth triiodide (BiI 3 ) is a 2D material that has emerged as an ideal choice for optical sensors. Although BiI 3 has been prepared using vacuum-based deposition techniques, there is a dearth of research studies on synthesizing this material using chemical route. The present work uses a facile spin coating method with varying rotation speeds (rpm) to fabricate BiI 3 material thin films for photodetection applications. The structural, optical, and morphological study of BiI 3 thin films prepared at 3000-6000 rpm were investigated. XRD analysis indicates formation of BiI 3 films and revealed that BiI 3 has a rhombohedral crystal structure. FESEM analysis showed that BiI 3 films prepared at different rpm are homogeneous, dense, and free from cracks, flaws, and protrusions. In addition, films show an island-like morphology with grain boundaries having different grain sizes, micro gaps, and the evolution of the granular morphology of BiI 3 particles. The UV spectroscopy and photoluminescence analysis revealed that BiI 3 films strongly absorb light in the visible region of spectra with a high absorption coefficient of ∼10 4 cm -1 , have an optical band gap of ∼1.51 eV. A photodetector was realised using fabricated BiI 3 film obtained at an optimum spin speed of 4000 rpm. It showed rapid rise and decay times of 0.4 s and 0.5 s, a responsivity of ∼100 μA W -1 , external quantum efficiency of 2.1 × 10 -4 %, and detectivity of ∼3.69 × 10 6 Jones at a bias voltage of 0 V. Our results point towards a new direction for layered 2D BiI 3 materials for the application in self-biased photodetectors., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022