Synthesis of 1D Cu(OH)(2) Nanowires and Transition to 3D CuO Microstructures under Ultrasonic Irradiation, and Their Electrochemical Property

Ni YH; Li H; Jin LA; Hong JM

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Synthesis of 1D Cu(OH)(2) Nanowires and Transition to 3D CuO Microstructures under Ultrasonic Irradiation, and Their Electrochemical Property

机译：一维Cu（OH）（2）纳米线的合成及其在超声辐照下向3D CuO微观结构的转变及其电化学性能

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1D Cu(OH)(2) nanowires with a high yield were successfully synthesized under ultrasound irradiation of 40 kHz ultrasonic waves at the output power of 100% at 70 degrees C for 5 min without the assistance of any surfactant, employing CuCl2 center dot 2H(2)O and NaOH as the initial materials. X-ray diffraction (XRD) analyses and field emission scanning electron microscopy (SEM) observations of the products showed that 1D Cu(OH)(2) nanowires could be completely converted into 3D CuO microstructures after the system had been continuously irradiated by ultrasonic waves for 45 min. A time-dependent. shape evolution was investigated. Furthermore, research indicated that Cu(OH)(2) nanowires and CuO microstructures could promote electron transfer between the glassy-carbon electrode and organic small molecules Such as L-ascorbic acid and catechol, which is rarely reported in previous literature.

机译：使用CuCl2中心点2H，在没有任何表面活性剂的辅助下，在70 kHz下以40％的超声波在100 kHz的输出功率下以40％的超声波功率成功地合成了5D的高产量的一维Cu（OH）（2）纳米线（2）O和NaOH为起始原料。产品的X射线衍射（XRD）分析和场发射扫描电子显微镜（SEM）观察表明，在连续用超声波辐照系统后，一维Cu（OH）（2）纳米线可以完全转化为3D CuO微观结构。 45分钟与时间有关。研究了形状演变。此外，研究表明，Cu（OH）（2）纳米线和CuO微观结构可以促进玻璃碳电极与有机小分子（例如L-抗坏血酸和邻苯二酚）之间的电子转移，这在以前的文献中很少报道。

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《Crystal growth & design》 |2009年第9期|共6页
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Ni YH; Li H; Jin LA; Hong JM;
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1. Synthesis of 1D Cu(OH)(2) Nanowires and Transition to 3D CuO Microstructures under Ultrasonic Irradiation, and Their Electrochemical Property [J] . Ni YH, Li H, Jin LA, Crystal growth & design . 2009,第9期

机译：一维Cu（OH）（2）纳米线的合成及其在超声辐照下向3D CuO微观结构的转变及其电化学性能
2. Porous HKUST-1 derived CuO/Cu_2O shell wrapped Cu(OH)_2 derived CuO/ Cu_2O core nanowire arrays for electrochemical nonenzymatic glucose sensors with ultrahigh sensitivity [J] . Yu Cuiping, Cui Jiewu, Wang Yan, Applied Surface Science . 2018,第MAY1期

机译：HKUST-1多孔CuO / Cu_2O壳包裹的Cu（OH）_2衍生CuO / Cu_2O核纳米线阵列，用于电化学非酶葡萄糖传感器，具有超高灵敏度
3. Controllable synthesis of CuO nanowires and Cu_2O crystals with shape evolution via γ-irradiation [J] . Hai Z., Zhu C., Huang J., Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2010,第16期

机译：通过γ射线可控合成具有形状演化的CuO纳米线和Cu_2O晶体
4. One-pot Synthesis of a Novel 3D CuO Microstructure with Excellent Electrochemical Hydrogen Capacity [C] . Ying Li, Yongkui Yin, Shengzhong Rong International Conference on Applied Sciences, Engineering and Technology . 2014

机译：一种具有优异电化学氢气的新型3D CuO微观结构的单罐合成
5. Cu Cu2O CuO Graded Nanowire Heterostructures for CO2 Reduction. [D] . Huai, Chen. 2014

机译：用于减少CO2的Cu Cu2O CuO梯度纳米线异质结构。
6. Effect of Compound Fields of Ultrasonic Vibration and Applied Pressure on the 3D Microstructure and Tensile Properties of Recycled Al-Cu-Mn-Fe-Si Alloys [O] . Yuliang Zhao, Bo Lin, Dongfu Song, 2019

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7. Green synthesis of Cu/Cu2O/CuO nanostructures and the analysis of their electrochemical properties [O] . Xolile Fuku, Mmalewane Modibedi, Mkhulu Mathe 2020

机译：Cu / Cu2O / CuO纳米结构的绿色合成及其电化学性能分析
8. Synthesis, characterization, phase diagrams and superconducting and normal state magnetic properties of La2-(x)Sr(x)CuO4 (0 equal or less than) x (equal or less than 0.08) and electrochemically oxidized La(2-x)Sr( x)CuO(4 + delta) (0 equal or less than) x [R] . Chou, F. 1993

机译：La2-（x）sr（x）CuO4（0等于或小于）x（等于或小于0.08）和电化学氧化La（2-x）sr的合成，表征，相图和超导和正常状态磁性x）CuO（4 +δ）（0等于或小于）x

Synthesis of 1D Cu(OH)(2) Nanowires and Transition to 3D CuO Microstructures under Ultrasonic Irradiation, and Their Electrochemical Property

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