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N.B. Pawar,S.S. Mali,S.D. Kharade,M.G. Gang,P.S. Patil,김진혁,C.K. Hong,P.N. Bhosale 한국물리학회 2014 Current Applied Physics Vol.14 No.3
In the present paper we report structural, optical, morphological and electrical properties of thin films of MoBi2S5 prepared by facile self organized arrested precipitation technique (APT) from aqueous alkaline bath. X-ray diffraction study on thin films suggests orthorhombic and rhombohedral mixed phase structure. The samples are further annealed under vacuum at 373 and 473 K. The EDS pattern shows minor loss of sulphur upto 473 K. The optical absorption in visible region shows direct allowed transition with band gap variation over 1.2e1.1 eV. Post-heat treated samples exhibit n-type electrical conductivity. SEM images show uniform distribution of spherical grains with diameter w200 nm for as-synthesized MoBi2S5 thin film. The grain size increases with annealing temperature and morphology becomes more compact due to crystallization of thin film. The surface roughness deduced from AFM, was in the range of 1.29e1.92 nm. The MoBi2S5 thin films are employed for the fabrication of photoelectrochemical solar cells as all the samples exhibit strong absorption in visible to near IR region. Due to vacuum annealing it gives a significant enhancement of power conversion efficiency (h) upto 0.14% as compared to as-synthesized MoBi2S5 thin film.
Pawar, N.B.,Mali, S.S.,Kharade, S.D.,Gang, M.G.,Patil, P.S.,Kim, J.H.,Hong, C.K.,Bhosale, P.N. Elsevier 2014 CURRENT APPLIED PHYSICS Vol.14 No.3
In the present paper we report structural, optical, morphological and electrical properties of thin films of MoBi<SUB>2</SUB>S<SUB>5</SUB> prepared by facile self organized arrested precipitation technique (APT) from aqueous alkaline bath. X-ray diffraction study on thin films suggests orthorhombic and rhombohedral mixed phase structure. The samples are further annealed under vacuum at 373 and 473 K. The EDS pattern shows minor loss of sulphur upto 473 K. The optical absorption in visible region shows direct allowed transition with band gap variation over 1.2-1.1 eV. Post-heat treated samples exhibit n-type electrical conductivity. SEM images show uniform distribution of spherical grains with diameter ~200 nm for as-synthesized MoBi<SUB>2</SUB>S<SUB>5</SUB> thin film. The grain size increases with annealing temperature and morphology becomes more compact due to crystallization of thin film. The surface roughness deduced from AFM, was in the range of 1.29-1.92 nm. The MoBi<SUB>2</SUB>S<SUB>5</SUB> thin films are employed for the fabrication of photoelectrochemical solar cells as all the samples exhibit strong absorption in visible to near IR region. Due to vacuum annealing it gives a significant enhancement of power conversion efficiency (η) upto 0.14% as compared to as-synthesized MoBi<SUB>2</SUB>S<SUB>5</SUB> thin film.
Avinash B. Gangurde,Ritesh A. Fule,Sharadchandra D. Javeer,Rahul K. Patole,Jaywant N. Pawar,Purnima D. Amin 한국약제학회 2015 Journal of Pharmaceutical Investigation Vol.45 No.2
Choline bitartrate (CBT) is a water solubleessential nutrient belongs to vitamin-B family. It is moisturesensitive in nature and marketed formulation has stabilityrelated problems during storage which curtails itseffectiveness. Waxes such as hydrogenated soya bean oil(HSO) reported to be an excellent coating carrier to reducemoisture sensitivity or hygroscopic nature of drug candidates. However, literature dictates HSO applications hasbeen explored mostly using non-aqueous methods or hotmelt techniques of formulation development. In this work,microparticles of choline bitartrate with aqueous coatingdispersion of HSO as primary carrier was successfullydeveloped using fluidized bed coating technique. Aqueousdispersion of HSO was prepared using selected binder in ahomogenizer and formed aqueous dispersion was thensprayed through 0.8 mm gun in fluidized bed processor. The microparticles were evaluated for parameters like flowproperties, morphological characteristics, drug content,encapsulation efficiency and drug release behaviour. Thesolid state characterization of optimized microparticlebased formulation was done by differential scanning calorimetry,X-ray diffractometry, infrared spectroscopy andscanning electron microscopy. The results showed thatmicroencapsulation of choline bitartrate were successfullydone by aqueous wax coating dispersion without using anyorganic solvent or hot melt techniques. Discolouration,fishy odour and drug content variation was not observedafter 6 months stability studies. Choice of proper carrier todrug ratio and selective formulation technique are criticalparameters for dispensing CBT microparticle based formulationwhich might significantly enhance itseffectiveness.
Mane, R.S.,Chang, J.,Ham, D.,Pawar, B.N.,Ganesh, T.,Cho, B.W.,Lee, J.K.,Han, S.H. Elsevier 2009 Current Applied Physics Vol.9 No.1
The present article demonstrates the use of low-cost electrochemically synthesized hydrophilic and nanocrystalline tin oxide film electrodes at room temperature in dye-sensitized solar cells and electrochemical supercapacitors. A mixed phase of tin instead of single phase composed of uniformly distributed irregular spherical grains in a nanometer regime scale was obtained. Tin oxide film electrode showed efficient photoperformance when subjected to dye-sensitized solar cells. The interfacial and specific capacitances of 118.4μF/cm<SUP>2</SUP> and 43.07F/g, respectively, in 0.1M NaOH electrolyte were confirmed from cyclic-voltammetry measurement.
Rajaram S. Mane,장진호,Dukho Ham,B.N. Pawar,T. Ganesh,한성환,이준기,조병원 한국물리학회 2009 Current Applied Physics Vol.9 No.1
The present article demonstrates the use of low-cost electrochemically synthesized hydrophilic and nanocrystalline tin oxide film electrodes at room temperature in dye-sensitized solar cells and electrochemical supercapacitors. A mixed phase of tin instead of single phase composed of uniformly distributed irregular spherical grains in a nanometer regime scale was obtained. Tin oxide film electrode showed efficient photoperformance when subjected to dye-sensitized solar cells. The interfacial and specific capacitances of 118.4 μF/㎠ and 43.07 F/g, respectively, in 0.1 M NaOH electrolyte were confirmed from cyclic-voltammetry measurement. The present article demonstrates the use of low-cost electrochemically synthesized hydrophilic and nanocrystalline tin oxide film electrodes at room temperature in dye-sensitized solar cells and electrochemical supercapacitors. A mixed phase of tin instead of single phase composed of uniformly distributed irregular spherical grains in a nanometer regime scale was obtained. Tin oxide film electrode showed efficient photoperformance when subjected to dye-sensitized solar cells. The interfacial and specific capacitances of 118.4 μF/㎠ and 43.07 F/g, respectively, in 0.1 M NaOH electrolyte were confirmed from cyclic-voltammetry measurement.
Novel synthesis of interconnected nanocubic PbS thin films by facile aqueous chemical route
Khot, K. V.,Mali, S. S.,Pawar, N. B.,Mane, R. M.,Kondalkar, V. V.,Ghanwat, V. B.,Patil, P. S.,Hong, Chang Kook,Kim, Jin Hyeok,Heo, Jaeyeong,Bhosale, P. N. Springer-Verlag 2014 Journal of materials science Materials in electron Vol.25 No.9
Multiple band gap energy layered electrode for photoelectrochemical cells
S.S. Kale,Rajaram S. Mane,T. Ganesh,B.N. Pawar,한성환 한국물리학회 2009 Current Applied Physics Vol.9 No.3
Using wet chemistry, electrode of multiple band gap energy starting from wide titanium dioxide (TiO2) to narrow range cadmium selenide (CdSe) is synthesized. Complete utilization of solar spectrum by initializing the film of wide band gap energy (absorbs high energy photons) permitting to narrow band gap films (absorbs low energy photons), is explored in the manuscript. X-ray diffraction (XRD), scanning electron microscopy (SEM), UV–Vis spectrophotometer techniques were used for the structural, surface morphological and optical studies. The role of every layer of descending band gap energy on the performance of photoelectrochemical cells is demonstrated. The three layered electrode exhibits a good absorbance followed by photoresponse as compared to the bilayers. Using wet chemistry, electrode of multiple band gap energy starting from wide titanium dioxide (TiO2) to narrow range cadmium selenide (CdSe) is synthesized. Complete utilization of solar spectrum by initializing the film of wide band gap energy (absorbs high energy photons) permitting to narrow band gap films (absorbs low energy photons), is explored in the manuscript. X-ray diffraction (XRD), scanning electron microscopy (SEM), UV–Vis spectrophotometer techniques were used for the structural, surface morphological and optical studies. The role of every layer of descending band gap energy on the performance of photoelectrochemical cells is demonstrated. The three layered electrode exhibits a good absorbance followed by photoresponse as compared to the bilayers.