Your search keyword '"Poting Liu"' showing total 5 results

1. Peculiarities in XPS spectra of Sn/SiO2 layers as an effect of surface charge

Author

Poting Liu, Katharina Freiberg, David C. Grinter, and Vladimir Sivakov

Subjects

X-ray photoelectron spectroscopy, Synchrotron, Tin, Chemical vapor deposition, Surface charging, Composite, Physics, QC1-999

Abstract

X-ray photoelectron spectroscopy based on synchrotron radiation was used to investigate the composition of the observed SnO2-x/Sn:SiO2-x thin layer grown by organometallic chemical vapour deposition on single-crystalline silicon wafer with additional argon ions etching treatment. Due to the formation of a thermodynamic anomaly during in situ layer growth, an efficient oxygen exchange between silicon and tin oxide phases occurs. The present study addresses the effect of localized surface charging and its influence on the obtained XPS core level spectra. We found that due to the high electrical conductivity of metallic tin and the direct coupling of tin particles to the silicon wafer, the XPS Sn 3d5/2 core level spectrum is not affected by the surface charge compared to the highly charged dielectric silicon oxide matrix, as observed for the XPS O 1 s and Si 2p core level spectra. Our results show that the core level spectra of Si 2p and O 1 s are shifted up to 3 eV due to the presence of uncompensated positive charge on the surface of the silica matrix. These results provide insight into the influence of surface charge effects on the analysis of conductor/insulator composite materials and contribute to the application of Sn-based materials in various application concepts related to energy and surface functionalization.

Published

2024

2. Tin/Tin Oxide Nanostructures: Formation, Application, and Atomic and Electronic Structure Peculiarities

Author

Poting Liu and Vladimir Sivakov

Subjects

tin, tin oxides, nanostructures, thin films, synchrotron, X-ray spectroscopy, Chemistry, QD1-999

Abstract

For a very long period, tin was considered one of the most important metals for humans due to its easy access in nature and abundance of sources. In the past, tin was mainly used to make various utensils and weapons. Today, nanostructured tin and especially its oxide materials have been found to possess many characteristic physical and chemical properties that allow their use as functional materials in various fields such as energy storage, photocatalytic process, gas sensors, and solar cells. This review discusses current methods for the synthesis of Sn/SnO2 composite materials in form of powder or thin film, as well as the application of the most advanced characterization tools based on large-scale synchrotron radiation facilities to study their chemical composition and electronic features. In addition, the applications of Sn/SnO2 composites in various fields are presented in detail.

Published

2023

3. Spectromicroscopy Studies of Silicon Nanowires Array Covered by Tin Oxide Layers

Author

Sergey Turishchev, Alexander Schleusener, Olga Chuvenkova, Elena Parinova, Poting Liu, Maxim Manyakin, Sergei Kurganskii, and Vladimir Sivakov

Subjects

atomic and electronic structures, Biomaterials, X-ray absorption near edge structures (XANES), General Materials Science, photoemission electron microscopy (PEEM), General Chemistry, silicon nanowires, tin oxide, Biotechnology

Abstract

The composition and atomic and electronic structure of a silicon nanowire (SiNW) array coated with tin oxide are studied at the spectromicroscopic level. SiNWs are covered from top to down with a wide bandgap tin oxide layer using a metal–organic chemical vapor deposition technique. Results obtained via scanning electron microscopy and X-ray diffraction showed that tin-oxide nanocrystals, 20 nm in size, form a continuous and highly developed surface with a complex phase composition responsible for the observed electronic structure transformation. The “one spot” combination, containing a chemically sensitive morphology and spectroscopic data, is examined via photoemission electron microscopy in the X-ray absorption near-edge structure spectroscopy (XANES) mode. The observed spectromicroscopy results showed that the entire SiNW surface is covered with a tin(IV) oxide layer and traces of tin(II) oxide and metallic tin phases. The deviation from stoichiometric SnO2 leads to the formation of the density of states sub-band in the atop tin oxide layer bandgap close to the bottom of the SnO2 conduction band. These observations open up the possibility of the precise surface electronic structures estimation using photo-electron microscopy in XANES mode.

Published

2023

4. Nanostructured Silicon Matrix for Materials Engineering

Author

Poting Liu, Alexander Schleusener, Gabriel Zieger, Arne Bochmann, Matthijs A. van Spronsen, and Vladimir Sivakov

Subjects

Biomaterials, General Materials Science, General Chemistry, Biotechnology

Published

2023

5. Biomass-derived porous carbon materials for advanced lithium sulfur batteries

Author

Yunyi Wang, Poting Liu, and Jiehua Liu

Subjects

Materials science, business.industry, Heteroatom, Fossil fuel, Energy Engineering and Power Technology, Biomass, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Energy storage, 0104 chemical sciences, Fuel Technology, chemistry, Chemical engineering, 0210 nano-technology, Mesoporous material, business, Porosity, Carbon, Energy (miscellaneous)

Abstract

Biomass, as the most widely used carbon sources, is the main ingredient in the formation of fossil fuels. Biomass-derived novel carbons (BDNCs) have attracted much attention because of its adjustable physical/chemical properties, environmentally friendliness, and considerable economic value. Nature contributes to the biomass with bizarre microstructures with micropores, mesopores or hierarchical pores. Currently, it has been confirmed that biomass has great potential applications in energy storage devices, especially in lithium-sulfur (Li–S) batteries. In this article, the synthesis and function of BDNCs for Li–S batteries are presented, and the electrochemical effects of structural diversity, porosity and surface heteroatom doping of the carbons in Li-S batteries are discussed. In addition, the economic benefits, new trends and challenges are also proposed for further design excellent BDNCs for Li–S batteries.

Published

2019