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1. cô g trong c g g gc c - -
g g g c g ). Vậ c
c c quang c trong â c RR 95. ầ ầ ê ,
c c c cô g ê c R ., Vol 4, pp. 41185-41194.
2. g c -5 ) - ) g g g
ô ô g sử ụ g H . ậ ê c c c g
c g g â c RR 95. ầ ầ ê , c c
c cô g ê c R ., Vol 5, pp. 5261–5268.
3. -5 ) - ) c g ụ s c (Qmax - 5 g g
s V). c g g s g c c
ậ – ậ g c c .
<b>NEW CONTRIBUTIONS OF THE THESIS </b>
1. Partial isomorphous substitution of Cr by Fe in the MIL-101 framework was
achieved by direct synthesis using a hydrothermal method. This material
showed high catalytic activity in RR195 degradation. The results were first
published in RSC Advances (RSC Adv., Vol 4, pp. 41185-41194).
2. MIL-53(Fe) and MIL-88B(Fe) were successfully synthesized by the HF
free-solvothermal method. Both materials showed high catalytic activity in RR195
degradation. The results were first published in RSC Advances (RSC Adv.,
Vol 5, pp. 5261–5268).
3. MIL-53(Fe) and MIL-88B(Fe) showed high arsenic adsorption capacity
(Qmax = 20-25 mg/g for As(V)). The results confirmed the ability to remove
arsenic in solution of novel MOFs material containing Fe.