Shijie Xie
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View article: Bounded Rational Decision-Risk Propagation Coupling Dynamics in Directed Weighted Multilayer Hypernetworks
Bounded Rational Decision-Risk Propagation Coupling Dynamics in Directed Weighted Multilayer Hypernetworks Open
Industrial symbiosis network (ISN) is crucial to improving resource utilization efficiency and promoting sustainable development. In order to mitigate the damage caused to symbiotic systems by risk propagation, this paper constructs a dire…
View article: Energy band calculation for III–V semiconductors: The shell DFT-x-y method
Energy band calculation for III–V semiconductors: The shell DFT-x-y method Open
View article: Bioaerosol emission characteristics from an underground wastewater treatment plant: Distribution, microbial population, influencing factors and health risk assessment
Bioaerosol emission characteristics from an underground wastewater treatment plant: Distribution, microbial population, influencing factors and health risk assessment Open
View article: Acceleration of shell DFT-1/2 in high-throughput calculations via cutoff radii prediction
Acceleration of shell DFT-1/2 in high-throughput calculations via cutoff radii prediction Open
Shell DFT-1/2 is a fast band gap rectification method that is versatile for semiconductor supercell and superlattice calculations, which involves two cutoff radii that have to be optimized. Although such optimization is trivial in terms of…
View article: Broadband Full Functional Reconfigurable Polarization Converter Based on Active Metasurface
Broadband Full Functional Reconfigurable Polarization Converter Based on Active Metasurface Open
View article: Degradation induced by charge relaxation in silicone gels under the ultra‐fast pulsed electric field
Degradation induced by charge relaxation in silicone gels under the ultra‐fast pulsed electric field Open
The insulating properties of silicone gel used for silicon carbide‐insulated gate bipolar transistors encapsulation may deteriorate seriously under ultra‐fast pulsed electric fields. The essence of insulation degradation lies in the deteri…
View article: Laser-field detuning assisted optimization of exciton valley dynamics in monolayer WSe$_2$: Geometric quantum speed limit
Laser-field detuning assisted optimization of exciton valley dynamics in monolayer WSe$_2$: Geometric quantum speed limit Open
Optimizing valley dynamics is an effective instrument towards precisely manipulating qubit in the context of two-dimensional semiconductor. In this work, we construct a comprehensive model, involving both intra- and intervalley channels of…
View article: Geometric quantum speed limits for Markovian dynamics in open quantum systems
Geometric quantum speed limits for Markovian dynamics in open quantum systems Open
We study theoretically the geometric quantum speed limits (QSLs) of open quantum systems under Markovian dynamical evolution. Three types of QSL time bounds are introduced based on the geometric inequality associated with the dynamical evo…
View article: Integration of resonant band with asymmetry in ferroelectric tunnel junctions
Integration of resonant band with asymmetry in ferroelectric tunnel junctions Open
View article: Resonant band engineering of ferroelectric tunnel junctions
Resonant band engineering of ferroelectric tunnel junctions Open
We propose energy band engineering to enhance tunneling electroresistance (TER) in ferroelectric tunnel junctions (FTJs). We predict that an ultrathin dielectric layer with a smaller band gap, embedded into a ferroelectric barrier layer, a…
View article: Robust Topological Nodal-Line Semimetals from Periodic Vacancies in Two-Dimensional Materials
Robust Topological Nodal-Line Semimetals from Periodic Vacancies in Two-Dimensional Materials Open
A nodal-line semimetal (NLSM) is suppressed in the presence of spin-orbit coupling unless it is protected by a nonsymmorphic symmetry. We show that two-dimensional (2D) materials can realize robust NLSMs when vacancies are introduced on th…
View article: Circularly polarized coherent light-induced boosting of polymer solar cells photovoltaic performance
Circularly polarized coherent light-induced boosting of polymer solar cells photovoltaic performance Open
We report a microscopic quantum theory which can be used to study circularly polarized light (CPL) induced singlet to triplet conversions in polymer solar cells (PSCs). We demonstrate that by properly adjusting CPL irradiation parameters, …
View article: Spin soliton of Holstein model with spin-orbit coupling in one-dimensional conjugated polymers
Spin soliton of Holstein model with spin-orbit coupling in one-dimensional conjugated polymers Open
For Holstein model with Rashba spin-orbit coupling (SOC) we establish the nonlinear Schrödinger equations and obtain exact soliton solution analytically. It is found that the soliton is spin polarized determined both by the SOC and the ele…
View article: Author Correction: Realization of Lieb lattice in covalent-organic frameworks with tunable topology and magnetism
Author Correction: Realization of Lieb lattice in covalent-organic frameworks with tunable topology and magnetism Open
View article: Isotope effect of carrier transport in organic semiconductors
Isotope effect of carrier transport in organic semiconductors Open
Isotopic substitution can effectively tune the device performances of organic semiconductors. According to the experimental results of isotope effects in electric, light and magnetic process in organic semiconductors, we adopt the tight-bi…
View article: Spin Injection and Transport in Organic Materials
Spin Injection and Transport in Organic Materials Open
This review introduces some important spin phenomena of organic molecules and solids and their devices: Organic spin injection and transport, organic spin valves, organic magnetic field effects, organic excited ferromagnetism, organic spin…
View article: Optical Helicity-Manipulated Photocurrents and Photovoltages in Organic Solar Cells
Optical Helicity-Manipulated Photocurrents and Photovoltages in Organic Solar Cells Open
The performance of an organic functional device can be effectively improved through external field manipulation. In this study, we experimentally demonstrate the optical polarization manipulation of the photocurrent or photovoltage in orga…
View article: Effect of ferroelectricity on charge conduction in a PCBM/perovskite device structure
Effect of ferroelectricity on charge conduction in a PCBM/perovskite device structure Open
View article: Optically Controlled Magnetization and Magnetoelectric Effect in Organic Multiferroic Heterojunction
Optically Controlled Magnetization and Magnetoelectric Effect in Organic Multiferroic Heterojunction Open
The organic multiferroic effect receives increasing attention in organic electronics. Recently, the renaissance of organic multiferroics has yielded in a deep understanding of organic magnetism and magnetoelectric coupling. Here, through f…
View article: Spin-dependent transport and functional design in organic ferromagnetic devices
Spin-dependent transport and functional design in organic ferromagnetic devices Open
Organic ferromagnets are intriguing materials in that they combine ferromagnetic and organic properties. Although challenges in their synthesis still remain, the development of organic spintronics has triggered strong interest in high-perf…
View article: Ferromagnetic mechanism in organic photovoltaic cells with closed-shell structures
Ferromagnetic mechanism in organic photovoltaic cells with closed-shell structures Open
View article: Phase-breaking effect on polaron transport in organic conjugated polymers
Phase-breaking effect on polaron transport in organic conjugated polymers Open
View article: Spin polarization of excitons in organic multiferroic composites
Spin polarization of excitons in organic multiferroic composites Open
Recently, the discovery of room temperature magnetoelectricity in organic charge transfer complexes has reignited interest in the multiferroic field. The solution processed, large-area and low cost organic semiconductor materials offer new…
View article: Stability of hydrogenated graphene: a first-principles study
Stability of hydrogenated graphene: a first-principles study Open
Hydrogenated graphene becomes more stable when hydrogen atoms are adsorbed on graphene from both sides due to the increased carbon–carbon sp3 hybridization.
View article: Spin-polarization of organic molecules at the ferromagnetic surface
Spin-polarization of organic molecules at the ferromagnetic surface Open
Study on organic/ferromagnetic interface is helpful for understanding the effects of magnetoresistance in organic spin-valve, because one of the reasons of leading to this phenomenon is due to the spin injection at the interface. However, …