Zinc oxide, an n-type, II–IV semico

Zinc oxide, an n-type, II–IV semiconductor, is a commercially
mportant material used in solar cells [1], rubber [2], sensors [3],
varistors [4], etc. Also it is a self-activated crystal of a hexagonal
wurtzite structure with direct band gap energy 3.37 eV and
elatively high exciton binding energy (60 meV) at room tem-
perature [5], displays excellent piezoelectric [6], catalysis [7] and
novel optical properties [8]. Recently, a wide range of research on
synthesizing metal oxides with one dimensional nano structures
such as nano rods, fibers, tubes, wires, ribbons, nano needles and
nano sheets have gained much importance due to their potential
applications in various fields [9]. Among these metal oxides, zinc
oxide attracted the scientists as it is low cost, environmentally
benign and efficient semiconductor. In recent years, ZnO rods
have been synthesized by many methods such as solvothermal
process [10], surfactant assisted synthesis [11,12], gel casting
method [13], sonochemical method [14], chemical vapor deposi-
ion method [15] and thermal evaporation method [16]. Such
methods to prepare these types of nano structures of ZnO require
high temperature and are sometimes complicated. Hence a
simple and inexpensive synthetic process is required.
Herein, we report a simple and effective approach using a
solvent and surfactant free microwave assisted wet chemical