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200 10$aNano-microbiology for Sustainable Development /$fedited by Yugal Kishore Mohanta, Bishwambhar Mishra, Ramesh Namdeo Pudake
205   $a1st ed. 2025.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2025.
215   $a1 online resource (547 pages)
311 08$a9783031788444 
311 08$a3031788443 
327   $aChapter 1. Contribution of Microbial Nanotechnology to Sustainable Development Goals -- Chapter 2. Microbial nanotechnology: a potentially useful tool for environmental sustainability -- Chapter 3. Algal-mediated nanoparticle synthesis for environmental sustainability -- Chapter 4. Sustainable Production of Nanoparticles from Fungi and Their Agricultural Applications -- Chapter 5. Biorefining Agro-Industrial Waste into Green Nanomaterials for Sustainable Agriculture -- Chapter 6. Nanobiotechnology for sustainable food preservations and shelf-life enhancement -- Chapter 7. Eco-friendly production of antimicrobial nanoparticles for sustainability -- Chapter 8. Nano-Biosensors for Detecting Microbial Pathogens in Agriculture -- Chapter 9. Revolutions in Biotic Stress Management and Sustainable Agriculture through microbial-mediated Nanoformulation -- Chapter 10. From Lab to Landfill: Exploring Nanobiotechnological Approaches for E-Waste Remediation and Environmental Sustainability -- Chapter 11. Impact of microbial nanobiotechnology on the economy of developing countries -- Chapter 12. Nanotechnology and Microbes: Revolutionizing Water Management -- Chapter 13. Bioengineered Nano-sorbents: Microbial Allies in Pollutant Sequestration -- Chapter 14. Bioremediation of various industrial effluents utilizing microorganism-assisted nanotechnology within a circular economy -- Chapter 15. Microorganism-assisted bionanotechnology for textile dye wastewater treatment.
330   $aMicrobial diversity and microbial technology are critical to achieving most of the UN Sustainable Development Goals (SDGs), mainly due to their central role in the provision and regulation of ecosystem services. Despite this intensification of effort, more than 90% of microbial diversity remains to be discovered. Thus, the most unique characteristic of microbial technology is the exceptional diversity of applications it can address and the range of human activities and needs to which it is and can be applied. Separately, nanotechnology and microbiology have produced innovative solutions for human well-being and ecological and environmental equilibrium. The development of interdisciplinary research practices combining nanotechnology and microbiology to deliver creative solutions for human health and environmental and ecological damage is urgently required. The nanotechnology of microorganisms is contributing to the development and innovation of numerous industries. This book will explain the fundamentals and methods of the biological production of nanoparticles from microorganisms, such as bacteria, fungi, and algae. It will describe optimization strategies for microbe-mediated nanoparticle production. The book will also discuss the industrial and agricultural applications of nanoparticles produced by microbes. It also describes the applications of green nanoparticles in the health and pharmaceutical sectors, such as the treatment of multidrug-resistant infections and cancer. Overall, the book focuses on the broad subject areas of microbial nanotechnology and its possible applications in food, pharmaceuticals, water, environmental remediation, etc. However, the lack of information and the potential for negative effects on the environment, human health, safety, and sustainability remain obstacles. This book addresses these issues. Researchers and students in the agricultural sciences, materials sciences, biotechnology, microbiology, and pharmaceutical sectors will find this an invaluable resource.
606   $aNanotechnology
606   $aMicrobiology
606   $aFood science
606   $aBiotechnology
606   $aAgriculture
606   $aPharmaceutical chemistry
606   $aNanotechnology
606   $aMicrobiology
606   $aFood Science
606   $aBiotechnology
606   $aAgriculture
606   $aPharmaceutics
615  0$aNanotechnology.
615  0$aMicrobiology.
615  0$aFood science.
615  0$aBiotechnology.
615  0$aAgriculture.
615  0$aPharmaceutical chemistry.
615 14$aNanotechnology.
615 24$aMicrobiology.
615 24$aFood Science.
615 24$aBiotechnology.
615 24$aAgriculture.
615 24$aPharmaceutics.
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700   $aMohanta$b Yugal Kishore$01785078
701   $aMishra$b Bishwambhar$01785079
701   $aPudake$b Ramesh Namdeo$01785080
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200 00$aMagnesium diboride (MgBb2s) superconductor research /$fSouta Suzuki and Kouki Fukuda (editors)
205   $a1st ed.
210   $aNew York $cNova Science Publishers$d2009
215   $a1 online resource (317 p.)
300   $aDescription based upon print version of record.
311 08$a1-60456-566-7 
320   $aIncludes bibliographical references and index.
327   $a""MAGNESIUM DIBORIDE (MGB2)SUPERCONDUCTORRESEARCH""; ""MAGNESIUM DIBORIDE (MGB2)SUPERCONDUCTORRESEARCH""; ""CONTENTS""; ""PREFACE""; ""MGB2 SUPERCONDUCTOR RESEARCH""; ""Abstract""; ""Introduction""; ""1. MgB2 Crystal Structure""; ""2. Electronic Structure of MgB2""; ""3. Superconducting Mechanism in MgB2""; ""4. Mg-B System Phase Diagram""; ""5. MgB2 Crystal Growth""; ""6. Polycrystal Preparation of MgB2""; ""7. Thin Film of MgB2 [60]""; ""8. Mgb2 Nanomaterials""; ""9. Element Doped MgB2""; ""10. Applications""; ""References""
327   $a""SYNTHETIC AND PHENOMENOLOGICALAPPROACHES TO 2 DIMENSIONAL HIGH-TCSUPERCONDUCTIVITY IN THE LAYERED CUPRATES:DESIGN AND CREATION OF 2 DIMENSIONAL HYBRIDSYSTEMS WITH DISCRETE SUPERCONDUCTINGINSULATINGAND SUPERCONDUCTING-MAGNETICSUBSYSTEMS""""Abstract""; ""1. Introduction""; ""2. Brief Introduction of Theoretical Models for High- TcSuperconductivity""; ""2.1. Interlayer Coulomb-Coupling Model""; ""2.2. Andersona???s Interlayer Interaction Model""; ""2.3. The Spin Gap in Cuprate Superconductors""; ""2.4. Spin Interactions in High-Tc Superconductors""; ""2.5. One Dimensional (1-D) Stripe Model""
327   $a""3. Crystal and Electronic Structures of High- Tc""""3.1. Electronic Structure of Cuprate Superconductors""; ""3.2. Electronic and Crystal Structures of Bi-Based High-Tc CuprateSuperconductors""; ""4. High- Tc Superconductors in the 2 D Limit: [(Py-Cnh2n+1)2hgi4]-Bi2Sr2Cam-1cumoy (M=1 And 2)""; ""4.1. Research Motivation""; ""4.2. Synthesis and Measurements""; ""4.3. Conclusion""; ""5. A Novel Hybrid of High- Tc Superconducting and Curie-Paramagnetic Subsystems""; ""5.1. Introduction""; ""5.2. Synthesis""; ""5.3. Physico-Chemical Properties""; ""5.4. Conclusion""
327   $a""6. Hybrid System of High- Tc Superconducting and Pauli-TypeParamagnetic Subsystems""""6.1. Introduction""; ""6.2. Synthesis""; ""6.3. Physico-Chemical Properties""; ""6.4. Conclusion""; ""Acknowledgements""; ""References""; ""SURVEYING THE VORTEX MATTER PHASEDIAGRAM FOR PRISTINE MGB2, AND ATOMICSUBSTITUTED MG1a???xALxB2 AND MGB2a???xCxSINGLE CRYSTALS""; ""Abstract""; ""1. Introduction""; ""2. Experimental Techniques""; ""3. Pristine Single Crystals""; ""3.1. Growth of Pristine MgB2 Single Crystals""; ""3.2. Experimental Data for Pristine MgB2 Single Crystals""
327   $a""4. Aluminium Substituted Single Crystals""""4.1. Growth of Mg1a???xAlxB2 Single Crystals""; ""4.2. Experimental Data for Mg1a???xAlxB2 Single Crystals""; ""5. Carbon Substituted Single Crystals""; ""5.1. Growth of MgB2a???xCx Single Crystals""; ""5.2. Experimental Data for MgB2a???xCx Single Crystals""; ""6. Conclusion""; ""Acknowledgments""; ""References""; ""NANOCRYSTALLINE MICROSTRUCTUREOF MECHANICALLY ALLOYED MGB2SUPERCONDUCTOR PRECURSOR POWDERFOR BULK AND TAPE FABRICATIONAND IMPLICATIONS ON THE SUPERCONDUCTIVITY""; ""Abstract""; ""Introduction""; ""Experimental""; ""Results""
327   $a""Mechanically Alloyed Powders""
330   $aMagnesium diboride (MgB2) is an inexpensive and simple superconductor. Its superconductivity was announced in the journal 'Nature' in March 2001. Its critical temperature of 39 K is the highest amongst conventional superconductors. This material was first synthesized and its structure confirmed in 1953 but its superconducting properties were not discovered until half a century later. Though a conventional (phonon-mediated) superconductor, it is a rather unusual one. Its electronic structure is such that there exist two types of electrons at the Fermi level with widely differing behaviours, one of them being much more strongly superconducting than the other. This is at odds with usual theories of phonon-mediated superconductivity which assume that all electrons behave in the same manner. For this reason, theoretical understanding of the properties of MgB2 has not yet been achieved, particularly so in the presence of a magnetic field. This new book presents leading research in this field.
606   $aHigh temperature superconductivity
606   $aHigh temperature superconductors
606   $aMagnesium diboride
615  0$aHigh temperature superconductivity.
615  0$aHigh temperature superconductors.
615  0$aMagnesium diboride.
676   $a537.6/23
701   $aFukuda$b Kouki$01862994
701   $aSuzuki$b Souta$01862995
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