the three-hydroxyl groups which are

the three-hydroxyl groups which are also widely responsible for
metal nanoparticles bonding characteristics (Gardner et al., 2008).
Silver, inherently possessing antibacterial properties, has been
used to accelerate healing of skin wounds (Tian et al., 2007;
Maneerung, Tokura, & Rujiravanit, 2008) and also for treating a
Silver nanoparticles produced by chemical reducing agents
are usually associated with environmental toxicity or biological
abundant and have excellent emulsifying and surface-active properties
(Akhtar, Dickinson, Mazoyer, & Langendorff, 2002; Mikkonen
et al., 2009), which are beneficial for designing metal nanoparticles
in nanotechnology.
Of late, the incorporation of AgNPs in cotton fibers has
received great attention due to their high resistance to microbes.
Vigneshwaran, Kumar, Kathe, Vradarajan, and Prasad (2006) have
developed the in situ synthesis of silver nanoparticles on cotton
fabrics. Perelshtein et al. (2008) developed a sonochemical method
for coating of AgNPs, using ultra sound waves. Duran, Marcato, De
Souza, Alves, and Esposito (2007) incorporated silver nanoparticles
in to cotton fabrics by fungal process. Yu, Teng, Chou, and Yang
(2003) also reported the incorporation of silver nanoparticles into
ultrafine fibers by electro spinning.
In the present investigation an efficient, non-toxic, durable and
cost effective antimicrobial cellulose fiber with increased applications
in medical field have been developed. The key feature of this
method was, synthetic reducing agents was completely avoided
by employing a green process where naturally available carbohydrates:
GA (composed of glycoproteins, arabinose and ribose) and
GG (composed of galactose and mannose) were used for the reduction
of silver ions to silver nanoparticles. The developed AgNPs
were incorporated into cellulose fibers to use as antibacterial finishings.
The advantages of the green process are: (a) there is no
need to use extra reducing agent, (b) the process can be conducted
at ambient temperature of 27 ◦C and (c) environmentally friendly
process.