One-Pot Hydrothermal Synthesis of SnMnS Nanosheets for Dielectric Energy Storage Applications

Abstract: Recently, dielectric materials with high energy storage capacity, low loss, and good temperature stability are highly desired for the rapidly growing field of power electronics. In the current work, we have investigated the change in electrical, optical, and dielectric properties by varying the concentration of compositional elements Sn and Mn. We have prepared the Sn1–x Mn x S (0.1, 0.3, 0.5, 0.7, and 0.9) matrix by using the simple single-step hydrothermal method. The samples show that the reflectance percen… Show more

“…Furthermore, the resistance of all samples was calculated by using the inverse slope of the I – V curve, 76,77 which is presented in Fig. S9 (ESI†).…”

Morphological evolution of individual microrods to self-assembled 3D hierarchical flower architectures of CuBi_xIn_1−xSe₂ for photo response applications

“…Furthermore, the resistance of all samples was calculated by using the inverse slope of the I – V curve, 76,77 which is presented in Fig. S9 (ESI†).…”

Morphological evolution of individual microrods to self-assembled 3D hierarchical flower architectures of CuBi_xIn_1−xSe₂ for photo response applications

“…According to the previous literatures, 43–45 various microstructural parameters were calculated from the XRD data and 2 θ values of the diffraction peaks, as described in ESI †. The calculated results (Table S1†) show that the average crystallite size ( D ) of the NiMn-LDH (22.6 nm) is bigger than that of Ni 6 MnO 8 (9.9 nm).…”

One-step hydrothermal growth of porous nickel manganese layered double hydroxide nanosheet film towards efficient visible-light modulation

“…The refractive index (n) of the present sample can be evaluated by using the optical bandgap data in the Dimitrov and Sakka equations as follows, [67] $$$\vcenter{\openup.5em\halign{$\displaystyle{#}$\cr {{{n}^{2}-1}\over{{n}^{2}+1}}=1-{\left({{{E}_{g}}\over{20}}\right)}^{{{1}\over{2}}}\hfill\cr}}$$$ …”

“…For example, materials with higher refractive index and lower bandgap have potential applications in the devices such as waveguides, solar cells, and detectors. [66] The refractive index (n) of the present sample can be evaluated by using the optical bandgap data in the Dimitrov and Sakka equations as follows, [67]…”

Hydrothermal Synthesis of Cu_0.66‐xZn_0.34+xSe Materials and Investigation of Their Structural, Optical, and Magnetic Properties