Shijie Wang

What is he best known for?

The fields of study he is best known for:

• Oxygen
• Semiconductor
• Organic chemistry

Shijie Wang mainly focuses on Optoelectronics, Nanotechnology, Analytical chemistry, Nanowire and Silicon. The various areas that Shijie Wang examines in his Optoelectronics study include Substrate, Epitaxy and Mica. His Nanotechnology research is multidisciplinary, incorporating perspectives in Surface-enhanced Raman spectroscopy and Molecular binding.

His Analytical chemistry research is multidisciplinary, relying on both FOIL method, Thin film, Pulsed laser deposition and Band gap. His Nanowire research incorporates themes from Raman scattering, Chemical engineering, Wurtzite crystal structure and Cadmium telluride photovoltaics. Shijie Wang combines subjects such as Amorphous solid, Nanoparticle and Condensed matter physics, Electronic band structure with his study of Silicon.

His most cited work include:

• Electrochemically Reduced Single‐Layer MoS2 Nanosheets: Characterization, Properties, and Sensing Applications (294 citations)
• TiO2/(CdS, CdSe, CdSeS) Nanorod Heterostructures and Photoelectrochemical Properties (217 citations)
• Comparative Study of Room‐Temperature Ferromagnetism in Cu‐Doped ZnO Nanowires Enhanced by Structural Inhomogeneity (190 citations)

What are the main themes of his work throughout his whole career to date?

The scientist’s investigation covers issues in Thin film, Optoelectronics, Analytical chemistry, Nanotechnology and Karst. His Thin film research incorporates elements of Condensed matter physics, Doping and Substrate. He has included themes like Layer, Epitaxy and Oxide in his Optoelectronics study.

As a part of the same scientific family, Shijie Wang mostly works in the field of Analytical chemistry, focusing on Amorphous solid and, on occasion, Silicon. His Nanotechnology study focuses mostly on Nanowire, Nanostructure and Nanoparticle. His biological study spans a wide range of topics, including Soil water and Carbonate rock.

He most often published in these fields:

• Thin film (15.88%)
• Optoelectronics (15.64%)
• Analytical chemistry (13.98%)

What were the highlights of his more recent work (between 2018-2021)?

• Karst (9.24%)
• Transition metal (5.69%)
• Hydrology (7.11%)

In recent papers he was focusing on the following fields of study:

His primary areas of investigation include Karst, Transition metal, Hydrology, Condensed matter physics and Soil science. His Transition metal research includes themes of Chemical physics, Phase transition, Oxide and Nanotechnology. As a part of the same scientific study, Shijie Wang usually deals with the Chemical physics, concentrating on Monolayer and frequently concerns with Molybdenum disulfide.

His work is dedicated to discovering how Oxide, Perovskite are connected with Substrate and other disciplines. His work in the fields of Hydrology, such as Water content, overlaps with other areas such as Plateau. To a larger extent, he studies Optoelectronics with the aim of understanding Heterojunction.

Between 2018 and 2021, his most popular works were:

• Far out-of-equilibrium spin populations trigger giant spin injection into atomically thin MoS2 (35 citations)
• Atomically Thin 2D Transition Metal Oxides: Structural Reconstruction, Interaction with Substrates, and Potential Applications (33 citations)
• High-throughput screening of transition metal single atom catalysts anchored on molybdenum disulfide for nitrogen fixation (30 citations)

In his most recent research, the most cited papers focused on:

• Oxygen
• Semiconductor
• Organic chemistry

Shijie Wang mainly investigates Transition metal, Karst, Vegetation, Normalized Difference Vegetation Index and Physical geography. His Transition metal study incorporates themes from Chemical physics, Monolayer, Nanotechnology and Molybdenum disulfide. The study incorporates disciplines such as Nanostructure, Self-assembly, Molecular physics, Electronic band structure and Electron affinity in addition to Monolayer.

The concepts of his Karst study are interwoven with issues in Agroforestry, Restoration ecology, Drainage basin, Carbon cycle and Carbon sink. He interconnects Greening, Global warming, Hydrology, Water content and Arid in the investigation of issues within Vegetation. His Spintronics research includes elements of Optoelectronics, Terahertz radiation, Orders of magnitude, Laser and Spin-½.

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