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Synthesis of Dumbbell-Shaped Manganese Oxide Nanocrystals Xinhua Zhong,*,† Renguo Xie,‡ Litao Sun,‡ Ingo Lieberwirth,† and Wolfgang Knoll*,† Max-Planck.

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Presentation on theme: "Synthesis of Dumbbell-Shaped Manganese Oxide Nanocrystals Xinhua Zhong,*,† Renguo Xie,‡ Litao Sun,‡ Ingo Lieberwirth,† and Wolfgang Knoll*,† Max-Planck."— Presentation transcript:

1 Synthesis of Dumbbell-Shaped Manganese Oxide Nanocrystals Xinhua Zhong,*,† Renguo Xie,‡ Litao Sun,‡ Ingo Lieberwirth,† and Wolfgang Knoll*,† Max-Planck Institute for Polymer Research, 55128 Mainz, Germany, and Institute for Physical Chemistry, UniVersity of Mainz, 55099 Mainz, Germany ReceiVed: October 23, 2005; In Final Form: NoVember 25, 2005 指導教授:王聖璋 研究生:許祐元

2 Outline Introduction Experimental Result and discussion Conclusion

3 Introduction Nanocrystals have attracted great interest due to their fundamental size- dependent properties and many important technological applications. In the past decade, intensive effort has been conducted in the design and synthesis of nanocrystals with anisotropic morphologies, because the size and shape of nanocrystals determine their physical and chemical properties. For this purpose, the development of a morphologically controlled synthesis of MnO nanocrystals is urgently needed to meet the demand for exploring the potentials of MnO. Anisotropic MnO nanocrystals with shapes of cube, tube, wire, branched structured, and todorokite-like are reported recently. Here, we report the synthesis and characterization of dumbbell- shaped MnO nanocrystals through the pyrolysis of manganese formate hydrate [Mn(HCO2) 2 ·x H 2 O] in trioctylamine/oleic acid (TOA/OA) media.

4 Experimental

5 Result and discussion Figure 1. p-XRD pattern of the nanoscaled MnO dumbbells. The line XRD pattern corresponds to bulk cubic MnO (bottom).

6 Figure 2. Low-magnification TEM images of MnO dumbbells: (A) ensemble; (B) two arms; (c) three arms; (D) four arms.

7 Figure 3. (A) HRTEM of a 3-arm dumbbell; (B, C) the magnification of an arrow in a dumbbell and the corresponding 2D FFT. Figure 1s. Energy-dispersive X-ray spectrum of MnO dumbbells.

8 Figure 4. Pearl-chain-like structure in the arms of dumbbells. Figure 2s. TEM image of diamond-like MnO nanocrystals obtained at lower heating rate (15- 20 o C/min)

9 Conclusion Dumbbell-like homogeneous MnO nanocrystals are obtained for the first time via the pyrolysis of manganese formate in trioctylamine/oleic acid media and the orientation aggregation mechanism is proposed for this 1D growth route. That is to say, under the set surfactant conditions, it is possible to form diamond-like MnO particles. In the second step the crystallographically specific orientation among the primary formed diamond-like MnO particles can align in different directions to form rod-, T- or +-like structures.

10 Thanks for your attention

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