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Crystallization Pathways and Evolution of Morphologies and Structural Defects of α-MnO 2 under Air Annealing.

Van-Phuc DinhTuyen Anh LuuKrzysztof SiemekDenis P KozlenkoKhiem Hong LeNgoc Toan DangTiep Van NguyenNguyen Le PhucTap Duy TranPhuc T PhanSon T LoKiet Anh Tuan HoangThanh Khan DinhNgoc Thuy LuongNgoc Chung LeNgoc-Tuan NguyenThien-Hoang HoXuan Dong TranPhong D TranHung Q Nguyen
Published in: Langmuir : the ACS journal of surfaces and colloids (2022)
Manganese dioxide nanomaterials have wide applications in many areas from catalysis and Li-ion batteries to gas sensing. Understanding the crystallization pathways, morphologies, and formation of defects in their structure is particularly important but still a challenging issue. Herein, we employed an arsenal of X-ray diffraction (XRD), scanning electron microscopy (SEM), neutron diffraction, positron annihilation spectroscopies, and ab initio calculations to investigate the evolution of the morphology and structure of α-MnO 2 nanomaterials prepared via reduction of KMnO 4 solution with C 2 H 5 OH prior to being annealed in air at 200-600 °C. We explored a novel evolution that α-MnO 2 nucleation can be formed even at room temperature and gradually developed to α-MnO 2 nanorods at above 500 °C. We also found the existence of H + or K + ions in the [1 × 1] tunnels of α-MnO 2 and observed the simultaneous presence of Mn and O vacancies in α-MnO 2 crystals at low temperatures. Increasing the temperature removed these O vacancies, leaving only the Mn vacancies in the samples.
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