【摘 要】
:
Magnesium oxide (MgO) is an important oxide material that has many applications such as catalysts, catalyst supports, adsorbents, refractory materials, pharmaceuticals [1] and toxic waste remediation
【机 构】
:
State Key Laboratory of Crystal Materials and Institute of Crystal Materials of Shandong University,
【出 处】
:
2016’中国溶胶-凝胶学术研讨会暨国际论坛
论文部分内容阅读
Magnesium oxide (MgO) is an important oxide material that has many applications such as catalysts, catalyst supports, adsorbents, refractory materials, pharmaceuticals [1] and toxic waste remediation [2].MgO fibers were fabricated from magnesium acetate sol by electrospinning previously [3].However, it is liable to be pulverization and becomes unconsolidated after MgO fibers calcined at high temperatures.In this study, the MgO precursor sol was optimized to ameliorate the microstructure of MgO fibers and obtain compact grain structure, The optimized sols were composed of magnesium acetate and magnesium citrate (abbreviated as MA and MC hereinafter, respectively) whose decomposition temperature ranges were different.MA and MC were chosen to confect the precursor sols in different proportions.The fibers were prepared through electrospinning equipment by sol-gel dry-spinning method.TG/DSC and IR spectrum were used to characterize the thermal decomposition process of the precursor fibers.The crystallization of the precursor fibers was studied by XRD.The morphology of MgO fibers was observed by SEM and found to be largely influenced by the ratio of MA and MC in precursor sols.After heat-treated at 600 ℃, 1000 ℃, MgO fibers showed good morphology and microstructure, which were better than the fiber processed from the sol formed only by MA.When the weight proportion of MC was 30~50%, finer MgO fibers could be obtained.
其他文献
Commercial dye has been extensively used and released into the environment which poses potential risk to human health.As a promising way for dye degradation, photocatalysis have been researched during
Using the sol-gel method, the Fe2O3 coated by silica nanocomposites with the ferric citrate as iron raw was synthesized.The clear sols were gelated at room temperature and then treated at 60 ℃ in vacu
SiO2 aerogel is a synthetic ultralight material with a very high pore volume and a large internal surface area.The latent heat storage of PCM is considered as having tremendous potential due to its hi
In preparation of aerogels,aging in mother liquid is a common technique to enhance the strength of network, thus to restrain the pore shrinkage.However, the research of aging in mother liquid mainly f
A novelAg2O/TiO2nanocompositeaerogel was synthetized through sol-gel method as highly efficient antibacterial agent, followed by drying with supercriticalethanol.In this work, TBOS as Ti source was ad
SiO2 aerogel was prepared via the sol-gel and alcohol supercritical drying process.Effects of heat treatment temperature on the morphology and pore properties of the SiO2 aerogel were characterized by
Flexible methylsilsesquioxane xerogels were prepared via sol-gel process followed by ambient pressure drying with trimethoxymethylsilane (MTMS) and dimethoxydimethylsilane (DMDMS) as co-precursor,hydr
Low density aerogel composites for thermal insulation can be widely applied in advanced missiles, aerospace vehicles and military fields because of their lightweight and thermal insulation performance
Objective: To investigate the clinical efficacy of the toothpaste containing 12 % high cleaning silica (HCS) and 2.1% sodium phytate on removing natural extrinsic dental stain.Methods: A random, doubl
Carbon nanofibers (CNF) are synthesis by pyrolysis of polyacrylonitrile (PAN) nanofibersthat are prepared by dissolving of PAN in N,N-dimethylformamide (DMF) solution followed by electrospinning and d