-
Microwave-induced self-organization in mineral systems. IX. Diluted FeOOH sol...
Microwave-induced self-organization of ferric hydroxide colloids obtained from ferric chloride and sodium carbonate solutions results in the crystallization of different mineral... -
Microwave-induced self-organization in mineral systems. VII. Diluted FeOOH so...
Microwave-induced self-organization of ferric hydroxide colloids obtained from ferric chloride and sodium carbonate solutions results in the crystallization of different mineral... -
Microwave-induced self-organization in mineral systems. VI. Saturated FeOOH s...
Microwave-induced self-organization of ferric hydroxide colloids obtained from ferric chloride and sodium carbonate solutions results in the crystallization of different mineral... -
Microwave-induced self-organization in mineral systems. V. FeCl3 colloid (800...
Microwave-induced self-organization in FeCl3 colloids under high irradiation power (800 W) is strongly dependent on the layer thickness of the precursor (saturated ferric... -
Microwave-induced self-organization in mineral systems. IX. Diluted FeOOH sol...
Microwave-induced self-organization of ferric hydroxide colloids obtained from ferric chloride and sodium carbonate solutions results in the crystallization of different mineral... -
Microwave-induced self-organization in mineral systems. IV. FeCl3 colloid (45...
Membraneous structure self-organization in FeCl3 colloids under microwave treatmet (450 W, 2.45 GHz) occurs due to the hydrolytic polycondensation of the ferric oxohydroxides. A... -
Microwave-induced self-organization in mineral systems. III. FeCl3 colloid (2...
Microwave-induced self-organization of membraneous structures with different morphology in hydrolized FeCl3 colloid (200 W, 2.45 GHz,1 min). The local MW treatment conditions...