Preface
Page: i-i (1)
Author: Anita Rani and Manoj Kumar
DOI: 10.2174/9789815256352124010001
PDF Price: $15
Green Nanoparticles: An Introduction
Page: 1-28 (28)
Author: Savita Ahlawat* and Nirantak Kumar
DOI: 10.2174/9789815256352124010003
PDF Price: $15
Abstract
This chapter elaborates the basic introduction of nanoparticles obtained from
different sources. This includes the information regarding different types of
nanoparticles, methods of synthesis and important principles of green chemistry etc.
along with all these parameters this chapter emphasize on production of environmental
friendly green nanoparticles by using different parts of the plants such as stem, bark,
leaves, root, flower, seed and fruit etc. Clear information can be gathered from the
chapter regarding appropriate parameters and precautions to be taken while synthesis of
green and sustainable materials with wide ranges of applications which includes
essential industries like food, cosmetics, pharmaceuticals etc. Brief introduction has
also been mentioned here about the various characterization techniques adopted for
identification and monitoring of green nanoparticles.
Synthesis, Characterization and Analysis of Green Nanoparticles
Page: 29-56 (28)
Author: Nirantak Kumar* and Savita Ahlawat
DOI: 10.2174/9789815256352124010004
PDF Price: $15
Abstract
The chapter focus on detailed information regarding all recently adopted
methods for synthesis of green nanoparticles such as Biological synthesis, Coprecipitation method, Template synthesis, Hydrothermal technique, Microwave
assisted synthesis, Inert gas condensation, Laser ablation method, Micro-emulsion
technique, Spark discharge method and Sputtering etc. Along with their advantages and
disadvantages. Biological methods of synthesis have been described extensively here to
synthesise environmental friendly nanoparticles with economical costs. Biological
synthesis has been shown by using bacteria, fungi and yeast etc. Along with methods,
this chapter gave detailed description about various spectral and analytical techniques
such as FTIR, SEM, TEM, XRD, EDX, UV-Visible spectroscopy etc.
Biological Potential of Nanoparticles as Effective Pharmacological Agents
Page: 57-85 (29)
Author: Pallvi Aggarwal*
DOI: 10.2174/9789815256352124010005
PDF Price: $15
Abstract
Green nanoparticles are being used in the field of pharmaceutical industry to
convert them into pharmacologically effective agents that are used to cure many
dangerous diseases. Inventions have been done in this area to prepare non-toxic and
pharmacologically beneficial drugs to save life of humans and to preserve the
environment to its originality. This chapter gives information about the different types
of nanoparticles that are used in the form of drugs such as Dendrimers, Micelles, Drug
conjugates, Protein nanoparticles, Nano-gels, Nanotubes of carbon and Nano-diamonds
etc. It has been found that incorporation of green nanoparticles into drug reduces the
toxicity level of the drug and used to cure Cancer, Infectious disorders, Auto-immune
disorders, Cardiovascular Diseases, Neurodegenerative diseases, Disorders of the eye
and lungs etc. Along with this, the chapter describes the various route of administration
of nanoparticles with appropriate mechanisms.
Mechanism of Action of Nanoparticles
Page: 86-108 (23)
Author: Ankita Sharma* and Manita Thakur
DOI: 10.2174/9789815256352124010006
PDF Price: $15
Abstract
The current trend highly favors the synthesis and production of metallic
nanoparticles such as gold, silver, copper, zinc, iron, magnesium etc. utilizing plant
components that have superior properties. Simultaneously nanoparticles have been
produced utilizing diverse plant extracts sourced from leaves, roots, seeds and other
plants. Plant-extract-based nanoparticles are in high demand due to their outstanding
characteristics and versatile applications. These nanoparticles are extensively employed
in numerous medical procedures, devices and biological applications they do present
drawbacks attributed to nanotoxicity. This review offers a comprehensive view of the
mechanism of action, production, and medical applications of nanoparticles particularly
focusing on their potential health and environmental impacts. This study discusses
medicinal plants, plant- extract-based nanoparticles and their potential uses for
antiviral, anticancer, antibacterial, and antifungal treatment.
Synergic Effects of Nanoparticles with other Drugs and Their Combined Effects
Page: 109-128 (20)
Author: Pinky, Nirantak Kumar* and Ankita Sharma
DOI: 10.2174/9789815256352124010007
PDF Price: $15
Abstract
As discussed in previous chapters that the formation of nanoparticles results
in various advantages for multidrug delivery when combined with particular drug as
compared to free drugs. So this article emphasize on use of nanoparticle and drug
combination to reduce the toxicity and improve the efficiency which is given in the
form of advantages. Drud combination analysis has been explained in the form of
isoboles and dose equivalent etc. Synergic effects of drug-nanoparticle combination on
bacteria, fungi, virus, diabetes and cancer has been shown by proper mechanism.
Beside these harmful effects of nanoparticles alone has been discussed in this section.
Drugs are combined with various metal nanoparticles such as gold, silver, copper etc.
has been shown to act as excellent agents to cure diseases effectively.
Subject Index
Page: 129-134 (6)
Author: Anita Rani and Manoj Kumar
DOI: 10.2174/9789815256352124010008
PDF Price: $15
Introduction
This book provides valuable knowledge about environmentally friendly methods of nanoparticle synthesis. The contents present information about the subject from synthesis, characterization, advantages, disadvantages, route of administrations up to effects of drug combinations. Starting with an introduction to the concept of green nanoparticles, the book summarizes different types of plant extracts and their components. Green methods for preparing nanotherapeutic agents utilizing algae and marine plants to synthesize metal based nanoparticles are also explained. The book also places an emphasis on the improvement of metal nanoparticle formulations with polymers for antibacterial applications. A detailed review of the interaction of nanoparticles with or without drugs rounds the contents, with a guide to easily understand their site of action along with suitable reactions in the body. This book is a primer on nanoparticle synthesis for pharmacology or nanomedicine programs that focus on sustainable and environmentally friendly methodologies for synthesizing therapeutics.