The synthesis, characterization, and applications of nanomaterials made from living organisms, such as bacteria, algae, fungus, plants, and biomolecules produced from them, are covered in the book Biogenic Nanomaterial for Health and Environment. The target audience for this book is students studying chemistry, biology, chemical engineering, and nanotechnology at the undergraduate and graduate levels. Researchers in the domains of nanochemistry, material science, biology, and industrial chemistry will also find the book to be a helpful resource.

ASPECTS

An organized synopsis of the nanomaterial produced via biogenic synthesis.Current study findings and indications of field advancement.Potential uses of biogenic nanomaterials in medicine and the environment are discussed, with a focus on biocidal activity, drug delivery, disease detection, and environmental pollution monitoring and remediation.

The organization of this book makes it easier to comprehend the fundamental ideas behind the biogenic synthesis of nanoparticles. Researchers studying nanotechnology have more significant and productive opportunities thanks to the biogenic creation of nanoparticles. The biomass found in different species serves as a model for the synthesis of nanoparticles with the appropriate features and structures. Utilizing biomass and chemicals sourced from preferred organisms throughout the nanoparticle manufacturing process yields benefits such as improved electrochemical uniformity, regulated particle size, decreased toxicity, and increased reactivity in an environmentally sustainable manner. This book will offer the most recent information on the creation of nanomaterials using biomass, cell extract, or entire organisms, as well as their applications in environmental remediation and health.