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Energy Band Engineering by CdTe/Si Codoped TiO<sub>2</sub> Nanoarrays for Enhanced Photoelectrochemical Water Splitting
Decomposition of the interaction energy of several flavonoids with Escherichia coli DNA Gyr using the SAPT (DFT) method: The relation between the interaction energy components, ligand structure, and biological activity
Decomposition of the interaction energy of several flavonoids with Escherichia coli DNA Gyr using the SAPT (DFT) method: The relation between the interaction energy components, ligand structure, and biological activity
Decomposition of the interaction energy of several flavonoids with Escherichia coli DNA Gyr using the SAPT (DFT) method: The relation between the interaction energy components, ligand structure, and biological activity
Ex vivo energy harvesting by a by-pass depletion designed abiotic glucose fuel cell operated with real human blood serum
Local vs. nonlocal integral elasticity-based phase field models including surface tension and simulations of single and two variant martensitic transformations and twinning
Local vs. nonlocal integral elasticity-based phase field models including surface tension and simulations of single and two variant martensitic transformations and twinning
Fully Soft-Switched Non-Isolated High Step-Down DC-DC Converter With Reduced Voltage Stress and Expanding Capability
Fully Soft-Switched Non-Isolated High Step-Down DC-DC Converter With Reduced Voltage Stress and Expanding Capability
Soil quality indicators along a degradation gradient in central Iran: comparison of two regions with contrasting grazing systems
Soil quality indicators along a degradation gradient in central Iran: comparison of two regions with contrasting grazing systems
Soil quality indicators along a degradation gradient in central Iran: comparison of two regions with contrasting grazing systems
Soil quality indicators along a degradation gradient in central Iran: comparison of two regions with contrasting grazing systems
Implementation of time-weighted residual method for simulation of flexural waves in multi-span Timoshenko beams subjected to various types of external loads: from stationary loads to accelerating moving masses
Implementation of time-weighted residual method for simulation of flexural waves in multi-span Timoshenko beams subjected to various types of external loads: from stationary loads to accelerating moving masses