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Böcker i Nanotechnology in the Life Sciences-serien

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  •  
    2 176,-

    In the pursuit of technological advancement in the field of biotechnology and pharmaceutical industries to counteract health issues, bacterial infections remain a major cause of morbidity and mortality. The ability of bacterial pathogens to form biofilms further agglomerates the situation by showing resistance to conventional antibiotics. To overcome this serious issue, bioactive metabolites and other natural products were exploited to combat bacterial infections and biofilm-related health consequences. Natural products exhibited promising results in vitro, however; their efficacy in in vivo conditions remain obscured due to their low-solubility, bioavailability, and biocompatibility issues. In this scenario, nanotechnological interventions provide a multifaceted platform for targeted delivery of bioactive compounds by slow and sustained release of drug-like compounds. The unique physico-chemical properties, biocompatibility and eco-friendly nature of bioinspired nanostructures has revolutionized the field of biology to eradicate microbial infections and biofilm-related complications. The green-nanotechnology based metal and metal oxide nanoparticles and polymeric nanoparticles have been regularly employed for antimicrobial and antibiofilm applications without causing damage to host tissues. The implications of these nanoparticles toward achieving sustainability in agriculture by providing systemic resistance against a variety of phytopathogens therefore plays crucial role in growth and crop productivity. Also the advent of smart and hybrid nanomaterials such as metal-based polymer nanocomposites, lipid-based nanomaterials and liposomes have the inherent potential to eradicate bacterial biofilm-related infections in an efficient manner. The recent development of carbon-based nanomaterials such as carbon nanotubes (CNTs) and silica based nanomaterials such as mesoporous silica nanoparticles (MSNs) also exploit a target of dreadful healthcare conditions such as cancer, immunomodulatory diseases, and microbial infections, as well as biofilm-related issues owing to their stability profile, biocompatibility, and unique physio-chemical properties. Recently novel physical approaches such as photothermal therapy (PTT) and antimicrobial photodynamic therapy (aPDT) also revolutionized conventional strategies and are engaged in eradicating microbial biofilm-related infections and related health consequences. These promising advancements in the development of novel strategies to treat microbial infections and biofilm-related multidrug resistance (MDR) phenomenon may provide new avenues and aid to conventional antimicrobial therapeutics.

  •  
    2 490,-

    Advanced materials and nanotechnology is a promising, emerging field involving the use of nanoparticles to facilitate the detection of various physical and chemical parameters, including temperature, humidity, pH, metal ion, anion, small organic or inorganic molecules, gases, and biomolecules responsible for environmental issues that can lead to diseases like cancer, diabetes, osteoarthritis, bacterial infections, and brain, retinal, and cardiovascular diseases. By monitoring environmental samples and detecting these environmental issues, advanced nanotechnology in this type of sensory technology is able to improve daily quality of life. Although these sensors are commercially available for the detection of monovalent cations, anions, gases, volatile organic molecules, heavy metal ions, and toxic metal ions, many existing models require significant power and lack advanced technology for more quality selectivity and sensitivity. There is room in these sensors to optimize their selectivity, reversibility, on/off ratio, response time, and their environmental stability in real-world operating conditions.This book explores the methods for the development and design of environmentally-friendly, simple, reliable, and cost effective electrochemical nanosensors using powerful nanostructured materials. More specifically, it highlights the use of various electrochemical-based biosensor sensors involved in the detection of monovalent cations, anions, gases, volatile organic molecules, heavy metal ions, and toxic metal ions, with the ultimate goal of seeing these technologies reach market.

  •  
    2 490,-

    Traditional methods in synthetic chemistry produce chemical waste and byproducts, yield smaller desired products, and generate toxic chemical substances, but the past two centuries have seen consistent, greener improvements in organic synthesis and transformations.

  • - An Approach Towards Sustainability
     
    2 640,-

    Agriculture is considered as a backbone of developing nations as it caters the needs of the people, directly or indirectly. The global agriculture currently faces enormous challenges like land degradation and reduced soil fertility, shrinking of land, low production yield, water accessibility and a dearth of labor due to evacuation of individuals from farming. Besides, the global population increases at an exponential rate and it is predicted that the global population will be 9 billion by 2050 that in turn leads to food crisis in near future. Although, green revolution revolutionizes the agriculture sector by enhancing the yield but it was not considered as a sustainable approach. Exorbitant use of chemical fertilizers and pesticides to boost the crop yield is definitely not a convenient approach for agriculture sustainability in the light of the fact that these chemical fertilizers are considered as double-edged sword, which on one hand enhance the crop yield but at the same timepossess deleterious effect on the soil microflora and thus declines its fertility. Besides, it cause irreversible damage to the soil texture and disrupts the equilibrium in the food chain across ecosystem, which might in turn lead to genetic mutations in future generations of consumers. Thus, the increased dependence on fabricated agricultural additives during and post green revolution has generated serious issues pertaining to sustainability, environmental impact and health hazards. Therefore, nano-biotechnology has emerged as a promising tool to tackle the above problems especially in the agriculture sector. Nano-agribusiness is an emerged field to enhance crop yield, rejuvenate soil health, provide precision farming and stimulate plant growth. Nano-biotechnology is an essential tool in modern agriculture and is considered as a primary economic driver in near future. It is evaluated that joining of cutting edge nanotechnology in agribusiness would push the worldwide monetary development to approximately US$ 3.4 trillion by 2020 which clearly indicates that how agri-nanobiotechnology plays a pivotal role in the agricultural sector, without any negative impact on the environment and other regulatory issues of biosafety. Agri-nanobiotechnology is an innovative green technology, which provides the solution to global food security, sustainability and climate change. The current book is presenting the role of nano-biotechnology in modern agriculture and how it plays a pivotal role to boost the agri-business.

  • - Synthesis and Biomedical Applications
     
    3 316,-

    Various applications of biosynthesized nanoparticles have been discovered, especially in the field of biomedical research, such as applications to specific delivery of drugs, use for tumor detection, angiogenesis, genetic disease and genetic disorder diagnosis, photoimaging, and photothermal therapy.

  •  
    2 176,-

    This book blends the science of biology, medicine, bioinorganic chemistry, bioorganic chemistry, material and physical sciences, biomedical engineering, electrical, mechanical, and chemical science to present a comprehensive range of advancements.

  •  
    2 176,-

    Preface1. Role of nanotechnology in Food safety and production, increasing agricultural yield, and improving environment    Abdulbasit A. Aljanabi (Iraq)2. Electrospun nano biopolymers: application in active packaging for food preservationNeda Aliabasi, Zahra Emam-Djomeh, Gholamreza Askari, Maryam Saadat (Iran)3.  Nanotechnology-based applications in FisheriesShobana Manoharan, Raghavan Kuppu, Ramesh Uthandakalaipandian (India)     4.  Food-based nanocarriers for bioactive compounds: fabrication, characterization and release studies          Mehdi Mohammadi, Zahra Emam-Djomeh, Maryam Salami, Shima Momen, Gholamreza Askari  (Iran)5.   Nanoparticles incorporated soy protein isolate films Stansfield White and Rakesh Kumar (United States)6.      Nanoencapsulation as a tool for food fortification and preservationHasan Jalili and Mahsa Sedighi (Canada)7.      Formulation, characterization and potential application of nanopreparation in food and medicine Ashutosh Bahuguna and Myunghee Kim (Republic of Korea)8.     Nanobiotechnology and it''s applications in agriculture and food productionPriyanka, Anurag Yadav and Kusum Yadav (India)9.      Green Synthesized Nano Materials Applicable for Controlling Plant Pathogens     Asadollah Ahmadikhah, Anahita Kharabi Masooleh, Zohreh Panahi (Iran)10.  Synthesis and Applications of Nanoparticles for Revolutionizing the Agriculture   Sudhakar Malla (India)11.  Revolutionizing crop yield through nano-enabled saviorsSwapnil Gaikwad, Shatavari Kulshrestha, Sarika Pawar, G. D. Tandon, Neelu Nawani (India)12.  Nanotechnology: an emerging tool for sustainable crop production under changing climateAkbar Hossain, M. Mahfuz Bazzaz, Mohammad Farooq, Md. Tofazzal Islam, Nawfel Abdullah (Bangladesh)            13.  Role of myconanoparticles as potential pest control agents  Ajay Kumar Gautam, Shubhi Avasthi (India)14.  Nanotechnology and its application on Post harvest Management of Vegetable crops        U. Thapa, R. Mondal and S. Nandi (India)15.  Advances in agronanotechnology and future prospects        Kalaivani Nadarajah (Malaysia)16.  Nano pesticides and nano fertilizers application in the agricultural productivity      Devarajan Thangadurai, Jeyabalan Sangeetha, Ram Prasad, Reza Mohammed, Steffi Simi Maxim (India and China)17.  Chitosan based nano-formulations for wastewater remediation       Manish Kumar, Amandeep Brar, V Vivekanand, Nidhi Pareek (India)18.  Nanobiotechnology for treating emerging nanocontaminants: impacts on food and environment   Anthony A. Adegoke, Olajide J. Akinjogunla, Samuel Eduok (Nigeria)         19.  Application of nano-technology for bioremediation of heavy-metals in wastewater management  Shanthala Mallikarjunaiah, Mahesh Pattabhiramaiah and Basavaraj Metikurki (India)20.  Nanoparticles and their role in bioenergy productionAmandeep Brar, Manish Kumar, V Vivekanand, Nidhi Pareek (India)21.  Impact of nanomaterials

  •  
    1 520,-

    Be it a microbe (benign or pathogenic), plant (lower or higher), plant parts/organs, food beneficiaries, animal (lower), higher animal processing wastes, these all are found to deliver nanomaterials under amenable processing conditions.

  • - Volume 2
     
    2 000,-

    Nanobiotechnology Applications in Plant Protection: Volume 2 continues the important and timely discussion of nanotechnology applications in plant protection and pathology, filling a gap in the literature for nano applications in crop protection.

  • - Volume 1, Advances in the Understanding of Nanomaterials Research and Applications
     
    2 660,-

    An improved understanding of the interactions between nanoparticles and plant retorts, including their uptake, localization, and activity, could revolutionize crop production through increased disease resistance, nutrient utilization, and crop yield. This may further impact other agricultural and industrial processes that are based on plant crops.This two-volume book analyses the key processes involved in the nanoparticle delivery to plants and details the interactions between plants and nanomaterials. Potential plant nanotechnology applications for enhanced nutrient uptake, increased crop productivity and plant disease management are evaluated with careful consideration regarding safe use, social acceptance and ecological impact of these technologies.Plant Nanobionics: Volume 1, Advances in the Understanding of Nanomaterials Research and Applications begins the discussion of nanotechnology applications in plants with the characterization and nanosynthesis of various microbes and covers the mechanisms and etiology of nanostructure function in microbial cells. It focuses on the potential alteration of plant production systems through the controlled release of agrochemicals and targeted delivery of biomolecules. Industrial and medical applications are included. Volume 2 continues this discussion with a focus on biosynthesis and toxicity.

  • - Environmental and Agricultural Applications
     
    1 340,-

    One of the most important environmental applications of magnetic nanostructures has been in the treatment of water, whether in the remediation of groundwater or through the magnetic separation and/or sensing of contaminants present in various aqueous systems.

  • - Volume 1, State-of-the-Art
     
    2 000,-

    Microbial Nanobionics: Volume 1, State of the Art, discusses a wide range of microbial systems and their utilization in biogenic synthesis of metallic nanoparticles. The rich biodiversity of microbes makes them excellent candidates for potential nanoparticle synthesis biofactories.

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