Controlling the Morphology of ZnO Nanostructures During Growth Process

被引：0

作者：

Gautam, Khyati ^{[1
]}

Singh, Inderpreet ^{[2
]}

Bhatnagar, P. K. ^{[1
]}

Peta, Koteswara Rao ^{[1
]}

机构：

[1] Univ Delhi, Dept Elect Sci, South Campus,Benito Juarez Rd, New Delhi 110021, India

[2] Univ Delhi, SGTB Khalsa Coll, Dept Elect, New Delhi 110007, India

来源：

RECENT TRENDS IN MATERIALS AND DEVICES, ICRTMD 2015 | 2017年 / 178卷

关键词：

NANORODS; NANOWIRES;

D O I：

10.1007/978-3-319-29096-6_16

中图分类号：

O59 [应用物理学];

学科分类号：

摘要：

In the present work, Zinc Oxide (ZnO) nanorods and nanotubes were fabricated in single synthesis step by hydrothermal method over ITO/glass. We have studied the growth mechanism behind the formation of ZnO nanotubes from nanorods. Finally, a control over the morphology of ZnO nanostructures during the growth process has been achieved. The as-synthesized nanorods and nanotubes were structurally characterized by field emission scanning electron microscopy (FESEM) and X-ray diffraction (XRD). Structural characterization confirms the formation of dense arrays of ZnO nanorods and nanotubes with a hexagonal crystal structure.

引用

页码：125 / 129

页数：5

共 11 条

[1] Influence of different growth environments on the luminescence properties of ZnO nanorods grown by the vapor-liquid-solid (VLS) method [J].

Alvi, N. H. ;

ul Hassan, Wasied ;

Farooq, B. ;

Nur, O. ;

Willander, M. .

MATERIALS LETTERS, 2013, 106 :158-163

[2] Fabrication and comparative optical characterization of n-ZnO nanostructures (nanowalls, nanorods, nanoflowers and nanotubes)/p-GaN white-light-emitting diodes [J].

Alvi, N. H. ;

Ali, S. M. Usman ;

Hussain, S. ;

Nur, O. ;

Willander, M. .

SCRIPTA MATERIALIA, 2011, 64 (08) :697-700

[3] Influence of pH, Precursor Concentration, Growth Time, and Temperature on the Morphology of ZnO Nanostructures Grown by the Hydrothermal Method [J].

Amin, G. ;

Asif, M. H. ;

Zainelabdin, A. ;

Zaman, S. ;

Nur, O. ;

Willander, M. .

JOURNAL OF NANOMATERIALS, 2011, 2011

[4] Low-temperature solution growth of ZnO nanotube arrays [J].

Chae, Ki-Woong ;

Zhang, Qifeng ;

Kim, Jeong Seog ;

Jeong, Yoon-Ha ;

Cao, Guozhong .

BEILSTEIN JOURNAL OF NANOTECHNOLOGY, 2010, 1 :128-134

[5] ZnO nanotube based dye-sensitized solar cells [J].

Martinson, Alex B. F. ;

Elam, Jeffrey W. ;

Hupp, Joseph T. ;

Pellin, Michael J. .

NANO LETTERS, 2007, 7 (08) :2183-2187

[6] Preparation and Investigation of ZnO Nanorods Array Based Resistive and SAW CO Gas Sensors [J].

Nikolaev, A. L. ;

Karapetyan, G. Ya. ;

Nesvetaev, D. G. ;

Lyanguzov, N. V. ;

Dneprovski, V. G. ;

Kaidashev, E. M. .

ADVANCED MATERIALS: PHYSICS, MECHANICS AND APPLICATIONS, 2014, 152 :27-36

[7] Hydrogen and ethanol sensors based on ZnO nanorods, nanowires and nanotubes [J].

Rout, CS ;

Krishna, SH ;

Vivekchand, SRC ;

Govindaraj, A ;

Rao, CNR .

CHEMICAL PHYSICS LETTERS, 2006, 418 (4-6) :586-590

[8]

Shariffudin S.S., 2013, IEEE REG S MICR 2013

[9] Growth of ZnO nanostructures with different morphologies by using hydrothermal technique [J].

Tong, Yanhong ;

Liu, Yichun ;

Dong, Lin ;

Zhao, Dongxu ;

Zhang, Jiying ;

Lu, Youming ;

Shen, Dezhen ;

Fan, Xiwu .

JOURNAL OF PHYSICAL CHEMISTRY B, 2006, 110 (41) :20263-20267

[10] Growth of arrayed nanorods and nanowires of ZnO from aqueous solutions [J].

Vayssieres, L .

ADVANCED MATERIALS, 2003, 15 (05) :464-466

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