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manuscript.”
“Background Manganese dioxides with diverse mTOR inhibitor crystal morphologies are attracting a lot of attention because of their physical and chemical properties and wide applications in catalysis [1], biosensors [2], water treatment [3, 4], electrochemical supercapacitors [5–9], and so on. Up to now, various MnO2 crystals with different morphologies such as nanosphere [10, 11], nanorod [12, Hydroxychloroquine 13], nanowire [13], nanoflower [13, 14], nanotube [15], pillow-shape [4], urchin-like [10, 16], hollow nanosphere, hollow nanocube [3], and hollow cone [17] have been synthesized. MnO2 crystals were already used in water treatment, gas sensors, electrochemical supercapacitors, and so on. For example, hollow spherical and cubic MnO2 nanostructures prepared by Kirkendall effect Protein Tyrosine Kinase inhibitor showed good ability to remove organic pollutants in waste water [3]. Cao et al. had prepared pillow-shaped MnO2 crystals which could remove about 85% of the Cd2+ in waste water [4]. Zhang et al. had prepared MnO2 hollow nanospheres and nanowires used for ammonia gas sensor [2]. MnO2 hollow nanospheres were found to exhibit enhanced sensing performance to ammonia gas at room temperature compared with MnO2 nanowires. Ma et al. had prepared urchin-shaped MnO2 and clew-like-shaped MnO2 used for electrochemical supercapacitors [6].