On the thermal decomposition of the zinc(II) hydroxide chlorides Zn5(OH)8Cl2�H2O and ?-Zn(OH)Cl

“…At the same time, the ZnO phase appeared at around 180 1C. The formation of b-Zn(OH)Cl during the decomposition of ZHC has been reported before [20,21]. It is interesting that b-Zn(OH)Cl with the high intensity of (003) reflection show high c-axis orientation.…”

“…The corresponding XRD patterns indicated that the first sharp exothermic peak (T max ¼208.3 1C) and second broad exothermic peak between 65 and 55 1C (T max ¼59.6 1C) corresponds to the regeneration of b-Zn(OH)Cl (green XRD pattern) and ZHC (blue XRD pattern), respectively. The regeneration of b-Zn(OH)Cl suggests the residual presence of ZnCl 2 in the formed ZnO and its regeneration mechanism has been proposed by Garcia-Martinez et al [20]:…”

“…5d) indicated that the additional weight loss was occurred at higher temperatures after the formation of the ZnO single-phase. GarciaMartinez et al [20] indicated the presence of residual amorphous ZnCl 2 in the formed ZnO. To clarify the role of residual ZnCl 2 , reversed thermal analysis of the ZHC was conducted by heating pattern (B) (see Section 2).…”

“…The thermal decomposition process of ZHC has been reported by Garcia-Martinez et al [20] and other researchers [21,22]. Garcia-Martinez et al [20] investigated the thermal decomposition process of ZHC in terms of a heating rate.…”

“…Garcia-Martinez et al [20] investigated the thermal decomposition process of ZHC in terms of a heating rate. As shown by Arii and Kishi [19], the presence of water vapor in the atmosphere may also affect the thermal decomposition process of ZHC.…”

Effect of water vapor on the thermal decomposition process of zinc hydroxide chloride and crystal growth of zinc oxide

“…At the same time, the ZnO phase appeared at around 180 1C. The formation of b-Zn(OH)Cl during the decomposition of ZHC has been reported before [20,21]. It is interesting that b-Zn(OH)Cl with the high intensity of (003) reflection show high c-axis orientation.…”

“…The corresponding XRD patterns indicated that the first sharp exothermic peak (T max ¼208.3 1C) and second broad exothermic peak between 65 and 55 1C (T max ¼59.6 1C) corresponds to the regeneration of b-Zn(OH)Cl (green XRD pattern) and ZHC (blue XRD pattern), respectively. The regeneration of b-Zn(OH)Cl suggests the residual presence of ZnCl 2 in the formed ZnO and its regeneration mechanism has been proposed by Garcia-Martinez et al [20]:…”

“…5d) indicated that the additional weight loss was occurred at higher temperatures after the formation of the ZnO single-phase. GarciaMartinez et al [20] indicated the presence of residual amorphous ZnCl 2 in the formed ZnO. To clarify the role of residual ZnCl 2 , reversed thermal analysis of the ZHC was conducted by heating pattern (B) (see Section 2).…”

“…The thermal decomposition process of ZHC has been reported by Garcia-Martinez et al [20] and other researchers [21,22]. Garcia-Martinez et al [20] investigated the thermal decomposition process of ZHC in terms of a heating rate.…”

“…Garcia-Martinez et al [20] investigated the thermal decomposition process of ZHC in terms of a heating rate. As shown by Arii and Kishi [19], the presence of water vapor in the atmosphere may also affect the thermal decomposition process of ZHC.…”

Effect of water vapor on the thermal decomposition process of zinc hydroxide chloride and crystal growth of zinc oxide

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