1) ammonium aluminium carbonate hydroxide
碱式碳酸铝铵
1.
Synthesis of ammonium aluminium carbonate hydroxide with fibre shape via solid state reaction and its supramolecular self-assembly characters;
纤维状碱式碳酸铝铵的低热固相合成及其超分子自组装特征
2.
Fibrous ammonium aluminium carbonate hydroxide (AACH)was synthesized via solid state reaction at room temperature controlled with sodium and magnesium ions.
在钠、镁离子的调控下,用室温固相反应法合成得到了纤维状的碱式碳酸铝铵(AACH),产物结晶度较好,长度约20~30μm。
3) ammonium aluminum carbonate hydroxide
碳酸铝铵
1.
Effect of NH4Cl on phase transformation of Al2O3 obtained from ammonium aluminum carbonate hydroxide(AACH) has been studied.
利用NH4Cl其分解时释放气体的特点控制以碳酸铝铵为前驱体的氧化铝α相变过程中的团聚。
2.
α-Al2O3 powder was prepared by crystalline ammonium aluminum carbonate hydroxide(AACH) method,and particle size and shape of α-Al2O3 were controlled by adding crystal growing accelerant and changing the calcination process.
在碳酸铝铵法制备氧化铝工艺的基础上,通过加入晶体生长促进剂及改变热分解工艺等方法,有效控制了α-Al2O3颗粒的大小和形貌。
3.
Crystalline ammonium aluminum carbonate hydroxide(AACH) precursor was synthesized by controlling precipitation reaction conditions.
通过控制铝盐与碳酸氢铵溶液的沉淀反应条件,制备出结晶碳酸铝铵前驱体。
4) ammonium aluminum carbonate hydroxide (AACH)
碳酸铝铵
1.
Adopting homogeneous precipitation method,ammonium aluminum carbonate hydroxide (AACH) precursor was prepared using ammonium aluminum sulphate (NH_4Al(SO_4)_2) and ammonium hydrogen carbon- ate (NH_4HCO_3) as the starting materials.
以硫酸铝铵(NH_4Al(SO_4)_2)和碳酸氢铵(NH_4HCO_3)为主要原料,采用均相沉淀法制备纳米前驱体碳酸铝铵(AACH),通过X射线衍射(XRD)和透射电镜(TEM)研究了pH值对其制备的影响。
5) Ammonium aluminum carbonate hydroxide(AACH)
碳酸铝铵
1.
Ammonium aluminum carbonate hydroxide(AACH) was synthesized as the precursor by the precipitation reaction of aluminum sulfate and ammonium carbonate.
以Al2(SO4)3与(NH4)2CO3为原料,采用液相沉淀法,制备出前驱物碳酸铝铵(AACH),并烧结得到Al2O3粉末。
6) sodium aluminium carbonate hydroxide
碱式碳酸钠铝
1.
Data mining technology in novel method for synthesis of sodium aluminium carbonate hydroxide;
低热固相合成碱式碳酸钠铝纳米晶及其数据挖掘
补充资料:蓝色碱式碳酸铜
分子式:2CuCO3·Cu(OH)2
CAS号:
性质:蓝色单斜晶体。相对密度3.88。熔点220℃(分解)。不溶于冷水,溶于氨水、铵盐溶液、热碳酸氢钠溶液。遇热水分解。在潮湿空气中逐渐转变为绿色孔雀石。在自然界中以蓝铜矿(或石青)形式存在。由硝酸铜溶液与过量碳酸钙作用而得。用作颜料及制造焰火等。
CAS号:
性质:蓝色单斜晶体。相对密度3.88。熔点220℃(分解)。不溶于冷水,溶于氨水、铵盐溶液、热碳酸氢钠溶液。遇热水分解。在潮湿空气中逐渐转变为绿色孔雀石。在自然界中以蓝铜矿(或石青)形式存在。由硝酸铜溶液与过量碳酸钙作用而得。用作颜料及制造焰火等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条