Growth Mechanism of α-Fe2O3Nanopolyhedra Synthesized from Pyrite by Cu2+Inducement

doi:10.12068/j.issn.1005-3026.2020.03.019

Abstract

Abstract: Taking pyrite as the iron source， Fe³⁺ leaching solution was obtained through roasting， chemical leaching and impurity removal. Then，α-Fe₂O₃ nanopolyhedra was synthesized by hydrothermal method via Cu²⁺ inducement. The structure and morphology of α-Fe₂O₃ nanopolyhedra were characterized by X-ray diffraction (XRD)， scanning electron microscopy (SEM) and Fourier transform infrared spectroscopy (FTIR) to investigate their nucleation and crystal growth. The results showed that α-Fe₂O₃ nanopolyhedra with a hexagonal structure was about 500nm in grain size. Based on the morphology observation of the as-prepared products synthesized at different hydrothermal times and the analysis result of solution chemistry calculations， it is concluded that the formation of α-Fe₂O₃ nanopolyhedra is followed by the precipitation， dissolution and recrystallization. The presence of Cu²⁺ mainly induces the crystal nucleus of α-Fe₂O₃ so as to form nanopolyhedra structure in the process of growth.

Key words: α-Fe₂O₃, nanopolyhedra, hydrothermal method, crystal growth, solution chemistry

CLC Number:

TD951

ZHOU Peng-fei， ZHANG Wei， ZHAO Si-kai， SHEN Yan-bai. Growth Mechanism of α-Fe₂O₃Nanopolyhedra Synthesized from Pyrite by Cu²⁺Inducement[J]. Journal of Northeastern University Natural Science, 2020, 41(3): 408-412.

References

[1]Zheng Y J，Liu Z C.Preparation of monodispersed micaceous iron oxide pigment from pyrite cinders［J］.Powder Technology，2011，207(1):335-342.
[2]He B B，Tian X K，Sun Y，et al.Recovery of iron oxide concentrate from high-sulfur and low-grade pyrite cinder using an innovative beneficiating process［J］.Hydrometallurgy，2010，104(2):241-246.
[3]Mekatel E，Trari M，Nibou D，et al.Preparation and characterization of α-Fe₂O₃ supported clay as a novel photocatalyst for hydrogen evolution［J］.International Journal of Hydrogen Energy，2019，44(21):10309-10315.
[4]Liu C B，Shan H，Liu L，et al.High sensing properties of Ce-doped α-Fe₂O₃ nanotubes to acetone［J］.Ceramics International，2014，40(1，Part B):2395-2399.
[5]Pailhé N，Wattiaux A，Gaudon M，et al.Impact of structural features on pigment properties of α-Fe₂O₃ haematite［J］.Journal of Solid State Chemistry，2008，181(10):2697-2704.
[6]Xu L，Tian Y H，Liu T F，et al.α-Fe₂O₃ nanoplates with superior electrochemical performance for lithium-ion batteries［J］.Green Energy & Environment，2018，3(2):156-162.
[7]Sun P，You L，Wang D W，et al.Synthesis and gas sensing properties of bundle-like α-Fe₂O₃ nanorods［J］.Sensors and Actuators B:Chemical，2011，156(1):368-374.
[8]Liu R M，Jiang Y W，Fan H，et al.Metal ions induce growth and magnetism alternation of α-Fe₂O₃ crystals bound by high-index facets［J］.Chemistry，2012，18(29):8957-8963.
[9]Gao Z Y，Sun W，Hu Y H.Mineral cleavage nature and surface energy:anisotropic surface broken bonds consideration［J］.Transactions of Nonferrous Metals Society of China，2014，24(9):2930-2937.
[10]Yan W，Fan H Q，Zhai Y C，et al.Low temperature solution-based synthesis of porous flower-like α-Fe₂O₃ superstructures and their excellent gas-sensing properties［J］.Sensors and Actuators B:Chemical，2011，160(1):1372-1379.
[11]Huang L M，Fan H Q.Room-temperature solid state synthesis of ZnO/α-Fe₂O₃ hierarchical nanostructures and their enhanced gas-sensing properties［J］.Sensors and Actuators B:Chemical，2012，171/172:1257-1263.
[12]Rufus A，Sreeju N ，Philip D.Synthesis of biogenic hematite (α-Fe₂O₃) nanoparticles for antibacterial and nanofluid applications［J］.RSC Advances，2016，6(96):94206-94217.
[13]Ouyang J J，Pei J，Kuang Q，et al.Supersaturation-controlled shape evolution of α-Fe₂O₃ nanocrystals and their facet-dependent catalytic and sensing properties［J］.ACS Applied Materials Interfaces，2014，6(15):12505-12514.
[14]Tsukamoto K.In-situ observation of crystal growth and the mechanism［J］.Progress in Crystal Growth and Characterization of Materials，2016，62(2):111-125.
[15]Li P，Cai Y，Fan H Q.Porous thin sheet-based α-Fe₂O₃-doped In₂O₃ structures:hydrothermal synthesis and enhanced Cl₂ sensing performance［J］.RSC Advances，2013，3(44):22239-22245.
[16]Cornell R M，Giovanoli R.The influence of copper on the transformation of ferrihydrite (5Fe₂O₃·9H₂O) into crystalline products in alkaline media［J］.Polyhedron，1988，7(5):385-391.
[15]关守平，房少纯.一种新型的区间-粒子群优化算法［J］.东北大学学报(自然科学版)，2012，33(10):1381-1384.(Guan Shou-ping，Fang Shao-chun.A new interval particle swarm optimization algorithm［J］.Journal of Northeastern University(Natural Science)，2012，33(10):1381-1384.)(上接第373页)部位，为选取传感器测点提供了科学依据，从而达到减少试验成本的目的.

Growth Mechanism of α-Fe₂O₃Nanopolyhedra Synthesized from Pyrite by Cu²⁺Inducement

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