Keywords: کاهش مغنسی گرمایی; Combustion synthesis; Ilmenite; Ferrotitanium; Titanium compound; Magnesiothermic reduction;
مقالات ISI کاهش مغنسی گرمایی (ترجمه نشده)
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Keywords: کاهش مغنسی گرمایی; Silicon; Halloysite nanotube; Magnesiothermic reduction; Anode material; Lithium-ion battery;
Keywords: کاهش مغنسی گرمایی; Carbon materials; Nitrogen doping; Porous; Magnesiothermic reduction;
Keywords: کاهش مغنسی گرمایی; Porous silicon; Magnesiothermic reduction; Diatomite; Lithium-ion batteries;
Keywords: کاهش مغنسی گرمایی; Porous silicon nanomaterials; Clay minerals; Magnesiothermic reduction; Molten salt;
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; Macroporous Si; Tabletting pretreatment; Anode material; Lithium-ion battery;
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; Silica glass; Silicon; Magnesium silicide; Silicon monoxide;
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; magnesium silicide; Si@C; porous Si; Li-ion battery;
Keywords: کاهش مغنسی گرمایی; Nanoporous titanium; Magnesiothermic reduction; Self-supporting monolith; Voluminal heating; Radiography
Keywords: کاهش مغنسی گرمایی; Porous silicon; Magnesiothermic reduction; Anode; Lithium-ion batteries;
Keywords: کاهش مغنسی گرمایی; Lithium-ion battery; Anode; Carbon nanotube capsule; Emulsion technique; Magnesiothermic reduction; High performance
Keywords: کاهش مغنسی گرمایی; Silicon; Halloysite clay; Magnesiothermic reduction; Lithium-ion battery anodes;
Keywords: کاهش مغنسی گرمایی; Nanocomposites; Silicon nanoparticles; Graphene; Magnesiothermic reduction; Lithium ion battery
Keywords: کاهش مغنسی گرمایی; lithium ion batteries; anode; silicon; magnesiothermic reduction; titanium silicide
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; Rice husk ash; Electromagnetic wave adsorption; Dielectric loss
Keywords: کاهش مغنسی گرمایی; Silica; Nano-silicon anode; Magnesiothermic reduction; Polyethyleneimine; Biomimetic;
Keywords: کاهش مغنسی گرمایی; Titanium powder; Combustion synthesis; Calcium hydroxide; Magnesiothermic reduction
Keywords: کاهش مغنسی گرمایی; Nanostructured silicon; Magnesiothermic reduction; Carbon coating; Composite; Electrochemical performance;
Synthesis of mesoporous silicon from industrial waste sodium-based slag
Keywords: کاهش مغنسی گرمایی; Recycling; Sodium-based slag; Magnesiothermic reduction; Microstructure; Porous silicon;
Biogenic porous silica and silicon sourced from Mexican Giant Horsetail (Equisetum myriochaetum) and their application as supports for enzyme immobilization
Keywords: کاهش مغنسی گرمایی; Equisetum spp.; Porous silica; Magnesiothermic reduction; Enzyme immobilization; Enzyme activity;
3D interconnected mesoporous Si/SiO2 coated with CVD derived carbon as an advanced anode material of Li-ion batteries
Keywords: کاهش مغنسی گرمایی; Mesoporous; SiO2; Magnesiothermic reduction; CVD; Graphitized; Lithium-ion battery;
Rational design of coaxial MWCNTs@Si/SiOx@C nanocomposites as extending-life anode materials for lithium-ion batteries
Keywords: کاهش مغنسی گرمایی; Lithium-ion batteries; Anodes; MWCNT@Si/SiOx@C nanocomposites; Magnesiothermic reduction;
Porous Si/C composite as anode materials for high-performance rechargeable lithium-ion battery
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; Porous Si; Lithium-ion battery; Anode materials; Carbon coating;
Ultrafine nano-Si material prepared from NaCl-assisted magnesiothermic reduction of scalable silicate: graphene-enhanced Li-storage properties as advanced anode for lithium-ion batteries
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; Si; Lithium ion battery; Anode material;
Manufacturing low enriched uranium metal by magnesiothermic reduction of UF4
Keywords: کاهش مغنسی گرمایی; Uranium metal; Magnesiothermic reduction; UF4; Uranium recovery; Nuclear fuel; Fuel fabrication;
Efficient solar light photoreduction of CO2 to hydrocarbon fuels via magnesiothermally reduced TiO2 photocatalyst
Keywords: کاهش مغنسی گرمایی; Reduced TiO2; Magnesiothermic reduction; Visible light absorption; CO2 photoreduction; Stable performance;
Highly Ordered Mesoporous Si/C Nanocomposite as High Performance Anode Material for Li-ion Batteries
Keywords: کاهش مغنسی گرمایی; Li-ion battery; mesoporous silicon; anode materials; nanocomposite; magnesiothermic reduction
Effect of pore lengths on the reduction degree and lithium storage performance of Mesoporous SiOx nanomaterials
Keywords: کاهش مغنسی گرمایی; Lithium storage; Magnesiothermic reduction; Pore length; SBA-15;
Three-dimensional graphene nanosheets loaded with Si nanoparticles by in situ reduction of SiO2 for lithium ion batteries
Keywords: کاهش مغنسی گرمایی; Silicon; Graphene; Three-dimensional; Magnesiothermic reduction; Lithium-ion batteries;
Scalable synthesis of Si/SiO2@C composite from micro-silica particles for high performance lithium battery anodes
Keywords: کاهش مغنسی گرمایی; Li-ion batteries; Anode; Micro-silica; Silicon; Magnesiothermic reduction
Combustion synthesis of TiFe by utilizing magnesiothermic reduction
Keywords: کاهش مغنسی گرمایی; Combustion synthesis; Hydrogen storage alloy; TiFe; Magnesiothermic reduction;
Reducing CO2 to dense nanoporous graphene by Mg/Zn for high power electrochemical capacitors
Keywords: کاهش مغنسی گرمایی; CO2 reduction; Nanoporous graphene; Magnesiothermic reduction; Electrochemical capacitors
Novel mesoporous silicon nanorod as an anode material for lithium ion batteries
Keywords: کاهش مغنسی گرمایی; Magnesiothermic reduction; Mesoporous silicon nanorods; Anode materials; Lithium ion batteries
Si/mesoporous carbon composite as an anode material for lithium ion batteries
Keywords: کاهش مغنسی گرمایی; Silicon; Mesoporous carbon; Magnesiothermic reduction; Anode material; Lithium ion batteries
Low-temperature Magnesiothermic Synthesis of Mesoporous Silicon Carbide from an MCM-48/Polyacrylamide Nanocomposite Precursor
Keywords: کاهش مغنسی گرمایی; Silicon carbide; Nanocomposite; Mesoporous; Magnesiothermic reduction; In-situ polymerization;
Fabrication of high surface area mesoporous silicon via magnesiothermic reduction for drug delivery
Keywords: کاهش مغنسی گرمایی; Mesoporous material; Silicon; Drug delivery; Magnesiothermic reduction
Production of niobium powder by magnesiothermic reduction of niobium oxides in a cyclone reactor
Keywords: کاهش مغنسی گرمایی; Niobium; Powder; Magnesiothermic reduction; Cyclone