Browsing Library Administration by Author "Jaffri, SB"
Now showing items 1-5 of 5
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n-type Ga<inf>2</inf>O<inf>3</inf>–ZnO heaped nanorods: apropos of coupling green route with micro-wave abetted synthesis for advanced energy systems
Jaffri, SB; Ahmad, KS; Abrahams, I; El-marghany, A (2023-01-01)This work is the first corroboration of the synthesis, characterization, and advanced energy applications of the novel n-type Ga2O3–ZnO heaped nanorods (HNRs) via modified green route coupled microwave abetted synthesis. ... -
N-type semiconductor [Gd3+-Ho3+-Dy3+]:SnO2 driven functionality enhancement in energy systems associated with photovoltaic and electrochemical contraptions
Jaffri, SB; Ahmad, KS; Abrahams, I; Almanqur, L; Alharbi, YT; Alderhami, SA (Elsevier, 2024-01-14)Current work reports the sustainable synthesis and application of the novel n-type [Gd3+-Ho3+-Dy3+]:SnO2 semiconductor material expressing band gap energy narrowing upon lanthanide triple doping. The band gap energy of ... -
Probing the synergetic impacts of temperature modulation and lanthanide doping on [Sm<sup>3+</sup>-Eu<sup>3+</sup>-Tm<sup>3+</sup>]:CsPbI<inf>2.7</inf>Br<inf>0.3</inf> designed for advanced energy technologies
Jaffri, SB; Ahmad, KS; Abrahams, I; El-marghany, A (2024-04-15)This is the first investigation of the triumvirate lanthanide doped novel perovskite host i.e. [Sm3+-Eu3+-Tm3+]:CsPbI2.7Br0.3 (SET:C-PVSK). Furthermore, this is also the first elucidation of using SET:C-PVSK in advanced ... -
Semiconducting Y<inf>2</inf>O<inf>3</inf>-ZnO stacked nano-fibrous arrays for interfacial engineering in solar cells, electrical charge storage, and electrochemical water splitting
Jaffri, SB; Ahmad, KS; Abrahams, I; Almanqur, L; Alharbi, YT (2023-12-01)Sustainability achievement in terms of energy requires consolidated approach for development of efficient materials that are eco-friendly, facile to prepare, and economically executable. With these considerations, this ... -
Sustainability aggrandized performance of [Sm-Eu-Tm]:CsPbI<inf>1.8</inf>Br<inf>1.2</inf> perovskite material in fully ambient solar cells, supercapacitors, and electro-catalysis
Jaffri, SB; Ahmad, KS; Abrahams, I; Habila, MA (2024-03-01)Present investigation reports the first investigation on cesium lead halide (CsPbI1.8Br1.2) semiconductor doped with lanthanides forming a [Sm-Eu-Tm]:CsPbI1.8Br1.2 system. This material was analyzed for time dependent ...