这篇文章收集了关于“低热固相合成+solid-state+preparation+at+low+heat”主题的英语短句和例句大全。低热固相合成是一种重要的固态制备方法,在低温下通过固体相互作用来合成材料。这篇文章包括了关于此方法的各种应用领域,例如材料科学、化学工程等。例句涵盖了对此方法的描述、应用实例以及相关研究成果,旨在帮助读者更深入地了解低热固相合成在科学研究和工程领域的重要性和实际应用价值。这些短句和例句将为读者提供丰富的信息和启发,使他们对低热固相合成有更全面的认识。
低热固相合成,solid-state preparation at low heat
1)solid-state preparation at low heat低热固相合成
英文短句/例句
1.The Solid-state Synthesis at Lower Heating Temperature and the Characteriations of Zincophosphate Compounds;磷酸锌化合物的低热固相合成与表征
2.Preparation and Characterization of Nanometer Crystalline NaSn_2(PO_4)_3 from Low Heat Solid-state ReactionNaSn_2(PO_4)_3纳米晶的低热固相合成及表征
3.Synthesis of a Diamond-Like Coordination Polymer,Zn(INA)_2 by Solid State Reaction at Lower Heating Temperature低热固相合成类金刚石型配位聚合物Zn(INA)_2
4.Synthesis and Characterization of the Several Nano-structured Materials by Low-heating Solid-state Chemical Reaction;几种纳米结构材料的低热固相合成及表征
5.Synthesis of Ferrites via Solid-State Reaction at Low Heat and Study on Their Properties;低热固相合成铁酸盐粉末及其性能研究
6.Synthesis of Lithium Cobalt Phosphate as Cathode Material for Lithium Ion Batteries via Low-Heating Solid-State Reaction低热固相合成锂离子电池正极材料磷酸钴锂
7.Synthesis of Metal Phosphates Materials via Solid-State Reaction at Low Heating Temperature and Study of Their Catalytic Activity on Organic Synthesis;金属磷酸盐材料的低热固相合成及其催化有机合成活性研究
8.Synthesis of Nickel Aluminophosphate Mesoporous Catalytic Material via Solid State Reaction at Low Temperature and Its Formation Mechanism磷酸铝镍介孔催化材料的低热固相合成及形成机理
9.Synthesis and Properties of Nanometer Amino Acid-Heteropoly Acid Charge-transfer Compounds by Low-heating Solid-state Chemical Reaction;纳米氨基酸—杂多酸电荷转移化合物的低热固相合成及性质
10.Synthesis of Chiral and Achiral Alkali Zincophosphate Salts by Solid Phase Reaction at Low-Heating Temperature and Study of Its Catalysis;低热固相合成手性及非手性碱金属磷酸锌盐及其催化性能的研究
11.Synthesis and Characterization of Sulfide and Oxide by Low-heating Solid-state Chemical Reaction;硫化物及氧化物纳米材料的低热固相合成及表征
12.Synthesis of Ni-doped TiO_2 Mesoporous Material via Solid-state Reaction at Low Temperature and its Kinetics of Methyl Orange PhotodegradationNi-TiO_2介孔材料的低热固相合成及其光降解甲基橙的动力学
13.Synthesis and Characterization of Four Series of Different Structural Aromatic Carboxylic Acid Complexes with Rare Earth for Solid State Reaction at Low Temperature and Studies on Property of Complexes;四种结构不同的芳香羧酸与稀土配合物的低热固相合成、表征与性质研究
14.Synthesis of ZrW_2O_8/ZrO_2 composites with low thermal expansion using in-situ solid state reaction method原位反应固相法合成低热膨胀ZrW_2O_8/ZrO_2复合材料
15.Synthesis and Characterization of Nanomaterials with Special Morphologies by Low-heating Solid-state Chemical Reaction;特殊形貌纳米材料的低热固相化学合成及其表征
16.Preparation and Characterization of Lithium Manganese Oxides as Cathode Materials for Li-ion Batteries by Low Heating Solid State Method;低热固相法合成锂离子电池Li-Mn-O系正极材料及其性能表征
17.Synthesis of Phosphates via Solid-State Reaction and Study on Their Properties;低热固相法合成磷酸盐系列纳米材料及其性能研究
18.Solid-state synthesis of Schiff base derived from p-nitrobenzaldehyde and p-aminobenzoic acid at supersonic speed airflow and low-heating temperature超音速气流低热固相反应合成对硝基苯甲醛缩对氨基苯甲酸Schiff碱
相关短句/例句
low-heating temperature solid state synthesis低加热固相合成
3)low-temperature solid-state synthesis低温固相合成
pared with gas or solution synthesis,low-temperature solid-state synthesis has many advantages in synthesizing metal oxide and sulfide nanomaterials,such as simple operation,low cost,little pollution,and being able to industrialization.本文介绍了具有独特物理、化学性质的金属氧化物、硫化物纳米材料的低温固相合成方法,重点阐述了金属氧化物和硫化物纳米材料的低温固相合成方法的路线、反应类型、常用表征测试方法、光电磁性能研究及低温固相反应机理等方面内容,并列举了各种实例。
4)low temperature solid phase synthesis method低温固相合成法
5)rare earth低热固相
1.Study on low heat synthesis of ternary mixedrare earth complex;低热固相法合成稀土三元混配配合物
6)low-heat solid state reaction低热固相法
1.25]O2 was synthesized bylow-heat solid state reaction.应用低热固相法制备镍锰复合正极材料Li[Li0。
延伸阅读
低热低热low?grade fever致热原作用于体温调节中枢,或体温中枢本身功能紊乱,致体温超出正常范围,在37.4~38.0℃之间。
