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One-Pot Photosynthesis of Cubic Fe@Fe 3 O 4 Core-Shell Nanoparticle Well-Dispersed in N-Doping Carbonaceous Polymer Using a Molecular Dinitrosyl Iron Precursor.

Ibrahim HabibTsai-Te LuAmr SabbahKuei-Hsien ChenFu-Te TsaiWen-Feng Liaw
Published in: Inorganic chemistry (2022)
Nanoscale zerovalent iron (NZVI) features potential application to biomedicine, (electro-/photo)catalysis, and environmental remediation. However, multiple-synthetic steps and limited ZVI content prompt the development of a novel strategy for efficient preparation of NZVI composites. Herein, a dinitrosyl iron complex [(N 3 MDA)Fe(NO) 2 ] ( 1-N 3 MDA ) was explored as a molecular precursor for one-pot photosynthesis of a cubic Fe@Fe 3 O 4 core-shell nanoparticle (ZVI% = 60%) well-dispersed in an N-doping carbonaceous polymer (NZVI@NC). Upon photolysis of 1-N 3 MDA , photosensitizer Eosin Y, and sacrificial reductant TEA, the α-diimine N 3 MDA and noninnocent NO ligands (1) enable the slow reduction of 1-N 3 MDA into an unstable [(N 3 MDA)Fe(NO) 2 ] - species, (2) serve as a capping reagent for controlled nucleation of zerovalent Fe atom into Fe nanoparticle, and (3) promote the polymerization of degraded Eosin Y with N 3 MDA yielding an N-doping carbonaceous matrix in NZVI@NC. This discovery of a one-pot photosynthetic process for NZVI@NC inspires continued efforts on its application to photolytic water splitting and ferroptotic chemotherapy in the near future.
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