Publications by authors named "Nguyen Dinh Lam"
A new catalyst has been developed that utilizes molybdenum oxide (MoO)/nickel molybdenum oxide (NiMoO) heterostructured nanorods coupled with Pt ultrafine nanoparticles for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) toward industrial-grade water splitting. This catalyst has been synthesized using a versatile approach and has shown to perform better than noble-metals catalysts, such as Pt/C and RuO, at industrial-grade current level (≥1000 mA·cm). When used simultaneously as a cathode and anode, the proposed material yields 10 mA·cm at a remarkably small cell voltage of 1.
View Article and Find Full Text PDFThis work offers a novel pathway to prepare cryptomelane manganese oxides nanosheets as an superior catalyst for the catalytic combustion of oxygenated volatile organic compounds. The tunnel cryptomelane manganese oxides nanosheets were prepared from layered birnessite via simultaneously tuning pH and molar ratio (R) of the redox-precipitation between oxalic acid and KMnO. Thus, few-layered cryptomelane nanosheets possessing the most predominantly exposed (211) facet are generated at low pH (5.
View Article and Find Full Text PDFIn this work, we joined highly Ni-loaded γ-Al O composites, straightforwardly prepared by impregnation methods, with an induction heating setup suited to control, almost in real-time, any temperature swing at the catalyst sites (i. e., "hot spots" ignition) caused by an exothermic reaction at the heart of the power-to-gas (P2G) chain: CO methanation.
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- The study explored the photocatalytic performance of a composite film made from ZnO nanorods (NRs) and CuO, using both experimental and numerical approaches.
- The composite film shows improved visible light absorption, reduced electron-hole recombination, and boasts stability, reusability, and durability for breaking down pollutants.
- The optimal configuration comprises a 1μ-thick CuO layer and a 10 nm-thick ZnO NRs layer, achieving a short circuit current density of 25.8 mA/cm and a degradation efficiency enhanced by the inner electric field and large surface area of the ZnO NRs.
The selective oxidation of H₂S to elemental sulfur was carried out on a NiS₂/SiC catalyst under reaction temperatures between 40 and 80 °C using highly H₂S enriched effluents (from 0.5 to 1 vol.%).
View Article and Find Full Text PDFRadial junction solar cells with vertically aligned wire arrays have been widely studied to improve the power conversion efficiency. In this work, we report the first Ge nanopillar solar cell. Nanopillar arrays are selectively patterned on p-type Ge (100) substrates using nanosphere lithography and deep reactive ion etching processes.
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- The text discusses a method for coating macroscopic supports like β-SiC and α-Al2O3 with a nitrogen-rich carbon layer derived from food-processing materials.
- This coating creates composites that function as effective metal-free catalysts.
- These catalysts are designed to enhance key industrial processes pivotal for renewable energy and environmental sustainability.
The objective of this work was to develop new coating materials based on poly(ethyleneoxide) (PEO), which was grafted onto polysilazane (PSZ) by hydrosilylation. Three types of PEO with different molecular weights (350, 750, 2000 g/mol) were studied. The kinetics and yields of this reaction have been surveyed by (1)H and (13)C NMR spectroscopy.
View Article and Find Full Text PDFSingle-junction GaAs solar cell structures were grown by low-pressure MOCVD on GaAs (100) substrates. Micro-rod arrays with diameters of 2 microm, 5 microm, and 10 microm were fabricated on the surfaces of the GaAs solar cells via photolithography and wet chemical etching. The patterned surfaces were coated with Au nanoparticles using an Au colloidal solution.
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