Premium
Large Scale Preparation of β‐CaSiO 3 Nanostructures by Solid‐State Reaction in NaCl–H 2 O(v) System at Lower Temperature
Author(s) -
Zhang Junhao,
Huang Man,
Yanagisawa Kazumichi,
Yao Shanshan,
Qiu Yushi,
Zheng Hongjuan
Publication year - 2015
Publication title -
journal of the american ceramic society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.9
H-Index - 196
eISSN - 1551-2916
pISSN - 0002-7820
DOI - 10.1111/jace.13524
Subject(s) - aqueous solution , hydrothermal circulation , amorphous solid , materials science , chemical engineering , crystallization , ionic bonding , thermal diffusivity , nanostructure , mineralogy , nanotechnology , ion , chemistry , thermodynamics , crystallography , organic chemistry , physics , engineering
An environmentally friendly NaCl–H 2 O(v) system was developed to prepare β‐CaSiO 3 nanostructures from commercially available raw materials, CaCO 3 and amorphous SiO 2 (α‐SiO 2 ), by a one‐step solid‐state reaction at 575°C for 2 h. The formation of β‐CaSiO 3 was accelerated by NaCl–H 2 O(v) system. The results demonstrated that both NaCl and H 2 O(v) played vital roles in the formation of β‐CaSiO 3 nanostructures at a lower temperature. NaCl is considered to enhance the diffusivity of starting materials and the rate of solid‐state reactions, and promote the crystallization at lower temperature. Water vapor can accelerate the decomposition of CaCO 3 , and absorbed water on the surface of solid materials can dissolve NaCl to form an aqueous ionic liquid composed of Na and Cl ions, which is similar to a hydrothermal process, and will further increase the diffusivity of components and reduce the reaction temperature.