ebook img

Environmental Applications of Microbial Nanotechnology: Emerging Trends in Environmental Remediation PDF

405 Pages·2022·17.11 MB·English
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Environmental Applications of Microbial Nanotechnology: Emerging Trends in Environmental Remediation

Environmental Applications of Microbial Nanotechnology Emerging Trends in Environmental Remediation Environmental Applications of Microbial Nanotechnology Emerging Trends in Environmental Remediation Edited by Pardeep Singh Department of Environmental Studies, PGDAV College, University of Delhi, New Delhi, India Vijay Kumar Department of Chemistry, Indian Institute of Technology (BHU), Varanasi, India Mansi Bakshi Department of Civil Engineering, Indian Institute of Technology Delhi, New Delhi, India Chaudhery Mustansar Hussain Department of Chemistry and Environmental Sciences, New Jersey Institute of Technology (NJIT), Newark, NJ, United States Mika Sillanpa¨a¨ Department of Biological and Chemical Engineering, Aarhus University, Aarhus, Denmark Elsevier Radarweg29,POBox211,1000AEAmsterdam,Netherlands TheBoulevard,LangfordLane,Kidlington,OxfordOX51GB,UnitedKingdom 50HampshireStreet,5thFloor,Cambridge,MA02139,UnitedStates Copyright©2023ElsevierInc.Allrightsreserved. Nopartofthispublicationmaybereproducedortransmittedinanyformorbyanymeans,electronicormechanical,including photocopying,recording,oranyinformationstorageandretrievalsystem,withoutpermissioninwritingfromthepublisher. Detailsonhowtoseekpermission,furtherinformationaboutthePublisher’spermissionspoliciesandourarrangementswith organizationssuchastheCopyrightClearanceCenterandtheCopyrightLicensingAgency,canbefoundatourwebsite:www. elsevier.com/permissions. ThisbookandtheindividualcontributionscontainedinitareprotectedundercopyrightbythePublisher(otherthanasmaybe notedherein). Notices Knowledgeandbestpracticeinthisfieldareconstantlychanging.Asnewresearchandexperiencebroadenourunderstanding, changesinresearchmethods,professionalpractices,ormedicaltreatmentmaybecomenecessary. Practitionersandresearchersmustalwaysrelyontheirownexperienceandknowledgeinevaluatingandusinganyinformation, methods,compounds,orexperimentsdescribedherein.Inusingsuchinformationormethodstheyshouldbemindfuloftheir ownsafetyandthesafetyofothers,includingpartiesforwhomtheyhaveaprofessionalresponsibility. Tothefullestextentofthelaw,neitherthePublishernortheauthors,contributors,oreditors,assumeanyliabilityforanyinjury and/ordamagetopersonsorpropertyasamatterofproductsliability,negligenceorotherwise,orfromanyuseoroperationof anymethods,products,instructions,orideascontainedinthematerialherein. ISBN:978-0-323-91744-5 ForInformationonallElsevierpublications visitourwebsiteathttps://www.elsevier.com/books-and-journals Publisher:SusanDennis AcquisitionsEditor:AnitaKoch EditorialProjectManager:KathrineEsten ProductionProjectManager:KumarAnbazhagan CoverDesigner:VickyPearsonEsser TypesetbyMPSLimited,Chennai,India List of contributors Sangita Agarwal Department of Applied Science, RCC Development Division, Dey’s Medical Stores (Mfg.) Institute of Information Technology, Beliaghata, Ltd.,Ballygunge,Kolkata,WestBengal,India Kolkata,WestBengal,India Somenath Das Department of Botany, Burdwan Raj Ganesh Kumar Agrawal Research Laboratory for College,PurbaBardhaman,WestBengal,India Biotechnology and Biochemistry (RLABB), Kamini Devi Plant Stress Physiology Lab, Department Kathmandu, Nepal; Global Research Arch for ofBotanicalandEnvironmental Sciences,Guru Nanak Developing Education (GRADE) Academy Pvt. Ltd., DevUniversity,Amritsar,Punjab,India Birgunj,Nepal Vivek Dhand Department of Mechanical Design K. Anuradha Department of Microbiology, Bhavan’s Engineering, Chonnam National University, Yeosu, Vivekananda College of Science, Humanities & Jeonnam,RepublicofKorea Commerce,Sainikpuri,Hyderabad,Telangana,India Palak Bakshi Department of Botany, School of Life Shailja Dhiman Amity Institute of Microbial Sciences, University of Kashmir, Satellite Campus, Technology, Amity University Uttar Pradesh, Noida, Kargil, Ladakh, Jammu and Kashmir, India; Plant UttarPradesh,India Stress Physiology Lab, Department of Botanical and Neha Dogra Department of Botany, Punjabi University, Environmental Sciences, Guru Nanak Dev University, Patiala,Punjab,India Amritsar,Punjab,India Sadhan Kumar Ghosh International Society of Waste Kriti Bhardwaj Department of Zoology, University of Management, Air and Water (ISWMAW-IconSWM), Allahabad,Prayagraj,UttarPradesh,India Kolkata, West Bengal, India; Department of Mechanical Engineering, Jadavpur University, Renu Bhardwaj Plant Stress Physiology Lab, Kolkata,WestBengal,India Department of Botanical and Environmental Sciences, GuruNanakDevUniversity,Amritsar,Punjab,India Arti Goel Amity Institute of Microbial Technology, Amity UniversityUttarPradesh,Noida,UttarPradesh,India Tamanna Bhardwaj Plant Stress Physiology Lab, Department of Botanical and Environmental Sciences, K.J. Hemanth Kumar Vidyavardhaka College of GuruNanakDevUniversity,Amritsar,Punjab,India Engineering,Mysore,Karnataka,India Bornita Bose Amity Institute of Biotechnology, Amity E. Janeeshma Plant Physiology and Biochemistry University,Kolkata,WestBengal,India Division, Department of Botany, University of Nalini Singh Chauhan Department of Zoology Guru Calicut,Malappuram,Kerala,India Nanak Dev University, Amritsar, Punjab, India; P.G Prajwal Jayakumar BBMP, Bengaluru, Karnataka, Department of Zoology, Kanya Maha Vidyalaya, India Jalandhar,Punjab,India Sandhya Jayakumar Managed Health Care, MOH, Yong Chen School of Environmental Science and BBMP,Bengaluru,Karnataka,India Engineering, Huazhong University of Science and Technology,Wuhan,P.R.China R. Jyothilakshmi M S Ramaiah Institute of Technology, Bengaluru,Karnataka,India Ankita Chowdhury Laboratory of Applied Stress Biology, Department of Botany, University of Gour Kapinder Department of Zoology, University of Banga,Malda,WestBengal,India Allahabad,Prayagraj,UttarPradesh,India SoumendraDarbar Faculty Council ofScience, Jadavpur Jasleen Kaur Department of Botany, Dyal Singh University, Kolkata, West Bengal, India; Research and College,UniversityofDelhi,Delhi,India xiii xiv Listofcontributors Rupinder Kaur Department of Biotechnology, DAV Puja Ohri Department of Zoology, Guru Nanak Dev College,Amritsar,Punjab,India University,Amritsar,Punjab,India Shruti Kaushik Department of Botany, Punjabi Harshata Pal Amity Institute of Biotechnology, Amity University,Patiala,Punjab,India University,Kolkata,WestBengal,India Suhail Ayoub Khan Department of Chemistry, Jamia Manisha Arora Pandit Department of Zoology, Kalindi MilliaIslamia,NewDelhi,India College, University of Delhi, New Delhi, New Delhi, Tabrez Alam Khan Department of Chemistry, Jamia India MilliaIslamia,NewDelhi,India Sanjeet Kumar Paswan Department of Nanoscience and Kanika Khanna Plant Stress Physiology Lab, Technology, Central University of Jharkhand, Ranchi, Department of Botanical and Environmental Sciences, Jharkhand,India Guru Nanak Dev University, Amritsar, Punjab, India; Sumangala Patil M. S. Engineering College, Bengaluru, Department of Microbiology, DAV University, Karnataka,India Sarmastpur,Jalandhar,Punjab,India Prabhurajeshwar Department of Studies in Sukhmeen Kaur Kohli Plant Stress Physiology Lab, Biotechnology, Davangere University, Shivagangothri, Department of Botanical and Environmental Sciences, Davangere,Karnataka,India GuruNanakDevUniversity,Amritsar,Punjab,India Ravindra Pratap Singh Department of Botany, Mata Jaspreet Kour Plant Stress Physiology Lab, Department GujriCollege,FatehgarhSahib,Punjab,India ofBotanicalandEnvironmental Sciences,Guru Nanak Abhay Punia Department of Zoology Guru Nanak DevUniversity,Amritsar,Punjab,India Dev University, Amritsar, Punjab, India; Shweena Krishnani Amity Institute of Microbial Department of Zoology, DAV University Jalandhar, Technology, Amity University Uttar Pradesh, Noida, Punjab,India UttarPradesh,India Jos T. Puthur Plant Physiology and Biochemistry Lawrence Kumar Department of Nanoscience and Division, Department of Botany, University of Technology, Central University of Jharkhand, Ranchi, Calicut,Malappuram,Kerala,India Jharkhand,India Randeep Rakwal Faculty of Health and Sport Sciences, Pawan Kumar Department of Physics, Mahatma Gandhi UniversityofTsukuba,Ibaraki,Japan CentralUniversity,Motihari,Bihar,India Deeksha Ranjan Department of Applied Sciences and Vikas Kumar Amity Institute of Microbial Technology, Humanities, Faculty of Engineering and Technology, Amity University Uttar Pradesh, Noida, Uttar Pradesh, RamaUniversity,Kanpur,UttarPradesh,India India Somani Chandrika Rath Amity Institute of Microbial S. Chaitanya Kumari Department of Microbiology, Technology, Amity University Uttar Pradesh, Noida, Bhavan’s Vivekananda College of Science, Humanities UttarPradesh,India &Commerce,Sainikpuri,Hyderabad,Telangana,India NiharikaRishi AmityInstituteofMicrobialTechnology, Isha Madaan Department of Botany, Punjabi University, Amity University Uttar Pradesh, Noida, Uttar Pradesh, Patiala,Punjab,India India Bilal Ahmad Mir Department of Botany, School of Life P.P. Sameena Plant Physiology and Biochemistry Sciences, University of Kashmir, Satellite Campus, Division, Department of Botany, University of Kargil,Ladakh,JammuandKashmir,India Calicut,Malappuram,Kerala,India Arpan Mukherjee Institute of Environment and Abhijit Sarkar Laboratory of Applied Stress Biology, Sustainable Development, Banaras Hindu University, Department of Botany, University of Gour Banga, Varanasi,UttarPradesh,India Malda,WestBengal,India Poulami Mukhopadhyay Post Graduate Department of Sutripta Sarkar Post Graduate Department of Food & Microbiology, Barrackpore Rastraguru Surendranath Nutrition, Barrackpore Rastraguru Surendranath College (Affiliated to West Bengal State University), College (Affiliated to West Bengal State University), Kolkata,WestBengal,India Kolkata,WestBengal,India H.M. Navya Department of Studies in Biotechnology, J. Patel Seema Department of Studies in Biotechnology, Davangere University, Shivagangothri, Davangere, Davangere University, Shivagangothri, Davangere, Karnataka,India Karnataka,India Listofcontributors xv Steplinpaulselvin Selvinsimpson School of Environmental D. Srividya Department of Studies in Biotechnology, Science and Engineering, Huazhong University of Davangere University, Shivagangothri, Davangere, ScienceandTechnology,Wuhan,P.R.China Karnataka,India Ashutosh Sharma Faulty of Agricultural Sciences, DAV Unsha Tabrez Chegg India Pvt. Ltd., Jasola, New Delhi, University,Jalandhar,Punjab,India India Nandni Sharma Department of Zoology, Guru Nanak Tarkeshwar Department of Zoology, Kalindi College, DevUniversity,Amritsar,Punjab,India UniversityofDelhi,NewDelhi,NewDelhi,India Pooja Sharma Department of Microbiology, DAV Pratik V. Tawade Department of Chemical Engineering, University, Jalandhar, Punjab, India; Plant Stress Indian Institute of Technology Madras, Chennai, Physiology Lab, Department of Botanical and TamilNadu,India Environmental Sciences, Guru Nanak Dev University, Ajit Varma Amity Institute of Microbial Technology, Amritsar,Punjab,India Amity University Uttar Pradesh, Noida, Uttar Pradesh, Ram Kishore Singh Department of Nanoscience and India Technology, Central University of Jharkhand, Ranchi, Kailas L. Wasewar Advance Separation and Analytical Jharkhand,India Laboratory (ASAL), Department of Chemical Shobha Singh Department of Nanoscience and Engineering, Visvesvaraya National Institute of Technology, Central University of Jharkhand, Ranchi, Technology(VNIT),Nagpur,Maharashtra,India Jharkhand,India RachnaYadav Amity InstituteofMicrobialTechnology, Vijay Singh Department of Botany, Mata Gujri College, Amity University Uttar Pradesh, Noida, Uttar Pradesh, FatehgarhSahib,Punjab,India India Geetika Sirhindi Department of Botany, Punjabi University,Patiala,Punjab,India Contents Listofcontributors xiii 1.8 Safetyassessmentofessentialoils 9 Abouttheeditors xvii 1.9 Conclusionandfutureprospective 11 Preface xix Acknowledgments 11 References 11 Part 1 Applications of microbial 2. Microbial nanobionics: future perspectives and innovative nanotechnology for environmental approach to nanotechnology 17 remediation ShweenaKrishnani,RachnaYadav, 1. Nanotechnology as sustainable strategy NiharikaRishiandArtiGoel for remediation of soil contaminants, 2.1 Introduction 17 air pollutants, and mitigation of 2.1.1 Biosynthesisofmicrobial food biodeterioration 3 nanoparticles 17 2.1.2 Typesofmicrobialnanoparticles 18 SomenathDasandArpanMukherjee 2.1.3 Endophyticmicrobesasnanoparticle 1.1 Introduction 3 biofactories 20 1.2 Useofnanoparticleforsoilandwater 2.2 Futurerecommendationsandapplications purification/remediation 4 ofmicrobialnanoparticles 21 1.2.1 Adsorbentprocess 4 2.2.1 Agricultureandfoodsector 21 1.2.2 Membranebasedprocess 4 2.2.2 Stemcelltherapy 24 1.2.3 Photocatalysisandantimicrobial 2.2.3 COVID19:facemaskandgloves 26 NPs 4 2.2.4 Infectiousdiseasesandmicrobial 1.3 Nanotechnologyinheavymetals(HMs) nanotechnologyapproach 26 removal 5 2.2.5 Actionofmicrobialnanoparticlesin 1.4 Contaminationofstoredfoodsby dentistry 28 fungiandmycotoxins 5 2.3 Advancementsinantimicrobialsurface 1.5 Essentialoils:agreenchemicalfor coatingstrategies 29 preservationofstoredfoods 7 2.4 Conclusions 29 1.6 Mechanismsinvolvingantifungaland References 30 antimycotoxigenicactivities 7 1.6.1 Effectonergosterolbiosynthesis 7 3. Application of biogenic nanoparticles 1.6.2 Effectonleakageofcellular constituents 8 in the remediation of contaminated 1.6.3 Effectofessentialoilsonenergy water 33 metabolism 8 E.Janeeshma,P.P.SameenaandJosT.Puthur 1.6.4 Effectofessentialoilsoncellular methylglyoxal 8 3.1 Introduction 33 1.6.5 Molecularmechanismofantifungal 3.2 Differentwaterremediationmethods 34 andantimycotoxigenicactivity 8 3.3 Applicationofnanoparticlesin 1.7 Nanotechnology:novelsustainablegreen wastewatertreatment 35 strategytoprotectfoods 9 3.4 Synthesisofmicrobialnanoparticles 36 v vi Contents 3.5 Applicationofmicrobialnanoparticlesin 5.5.6 Zincoxidenanoparticles 75 wastewatermanagement 37 5.6 Futureperspectivesandchallenges 76 3.6 Conclusions 38 5.7 Conclusions 77 References 38 References 77 4. Nanotechnology in biological 6. Microbial nanostructures and science and engineering 43 their application in soil remediation 81 PratikV.TawadeandKailasL.Wasewar ManishaAroraPandit,Kapinder, 4.1 Introduction 43 JasleenKaurandTarkeshwar 4.2 Nanobiotechnology 44 6.1 Introduction 81 4.3 Bionanotechnology 45 6.2 Biogenicsynthesisofnanostructures 81 4.4 Advantagesofnanotechnology 45 4.5 Biologicalapplicationsofnanotechnology 47 6.2.1 Biogenicsynthesisusingbacteria 82 4.5.1 Nanodiagnostics 47 6.2.2 Biogenicsynthesisusingfungiand yeast 82 4.5.2 Therapeuticapplications 49 6.2.3 Biogenicsynthesisusingplants 82 4.5.3 Nanobiosensors 53 6.2.4 Advantagesandapplicationsof 4.5.4 Nanotechnologyforcancer: biogenicnanostructures 84 diagnosisandtreatment 56 6.3 Environmentalbioremediation 85 4.6 Futureprospects 59 4.7 Conclusions 59 6.3.1 Soilpollutionandbioremediation 85 References 60 6.3.2 Bioremediationbyengineered nanostructures 85 6.3.3 Bioremediationbymicrobial 5. Nanomaterials based sensors for nanostructures(nanobioremediation) 86 detecting key pathogens in food and 6.4 Conclusion 92 water: developments from recent Listofabbreviations 92 decades 65 Acknowledgments 93 Declarations 93 ShobhaSingh,SanjeetKumarPaswan, References 93 PawanKumar,RamKishoreSinghand LawrenceKumar 5.1 Introduction 65 Part 2 5.2 Variouscontaminantsinfoodand water 66 Microbes mediated synthesis of 5.2.1 Contaminantsinfood 66 nanoparticles 5.2.2 Contaminantsinwater 69 5.3 Designingandfabricationof 7. Green biosynthesis of nanoparticles: nanomaterials-basedsensors 71 5.4 Applicationsofnanosensorsindifferent mechanistic aspects and sectors 72 applications 99 5.4.1 Agriculture 72 KanikaKhanna,SukhmeenKaurKohli, 5.4.2 Pollution 73 PalakBakshi,PoojaSharma,JaspreetKour, 5.4.3 Foodprocessing 73 TamannaBhardwaj,NandniSharma, 5.4.4 Foodpackaging 73 NehaDogra,PujaOhri,GeetikaSirhindiand 5.4.5 Foodtransport 73 RenuBhardwaj 5.5 Recentdevelopmentsin nanomaterials-basedsensorsfor 7.1 Introduction 99 pathogendetection 73 7.2 Microbialenzymesinnanoparticle 5.5.1 Quantumdots 74 synthesis 100 5.5.2 Carbonnanotubes 74 7.2.1 Extracellularenzymes 101 5.5.3 Silvernanoparticles 74 7.2.2 Intracellularenzymes 102 5.5.4 Goldnanoparticles 75 7.3 Microbe-mediatedbiosynthesisof 5.5.5 Magneticnanoparticles 75 nanoparticles:mechanismofaction 102 Contents vii 7.3.1 Nanoparticlebiosynthesisby 8.5 Conclusion 142 bacteria 103 8.6 Futurerecommendations 142 7.3.2 Nanoparticlebiosynthesisby References 142 fungi 105 7.3.3 Nanoparticlebiosynthesisby actinomycetes 106 9. Microbial metallonanoparticles— 7.3.4 Nanoparticlebiosynthesisbyyeast 106 an alternative to traditional 7.3.5 Nanoparticlebiosynthesisbyalgae 106 nanoparticle synthesis 149 7.3.6 Nanoparticlebiosynthesisby viruses 109 D.Srividya,J.PatelSeema,Prabhurajeshwar 7.4 Applicabilityofbiologicallysynthesized andH.M.Navya nanoparticles 110 9.1 Introduction 149 7.4.1 Antimicrobialagents 111 9.1.1 Advantagesanddisadvantagesof 7.4.2 Antibiofilmagents 112 nanoparticles 149 7.4.3 Drugdeliverysystem 113 9.1.2 Microorganismsasanalternative 7.4.4 Anticancerandmedicalpurposes 113 tothetraditionalnanoparticle 7.4.5 Diagnosticimagingandother synthesis 150 medicalpurposes 114 9.1.3 Bacteriamediatedsynthesis 151 7.5 Challengesassociatedwithmicrobial 9.1.4 Fungus-mediatedsynthesis 154 synthesisofnanoparticles:apossible 9.1.5 Algae-mediatedsynthesis 156 pathtosolution 115 9.1.6 Viralmediatedsynthesis 157 7.6 Conclusionandfutureperspectives 116 9.1.7 Nanoparticlesynthesisusing References 116 proteinandDNAscaffolds 157 9.1.8 Applicationsofnanoparticles 8. Microorganism assisted synthesized synthesizedviamicrobialroute 157 metal and metal oxide nanoparticles 9.1.9 Futureperspectives 157 for removal of heavy metal ions 9.2 Conclusion 159 from the wastewater effluents 127 References 159 Furtherreading 166 SangitaAgarwalandSoumendraDarbar 8.1 Introduction 127 10. Microbial-based synthesis of 8.2 Metalsandtheirrequirementfor existence 129 nanoparticles to remove different 8.2.1 Definitionofmetals 129 pollutants from wastewater 167 8.2.2 Classificationofheavymetals 129 SteplinpaulselvinSelvinsimpsonand 8.2.3 Sourcesofheavymetals 129 YongChen 8.2.4 Adverseeffectsofheavymetals 129 8.3 Nanotechnologyandenvironmental 10.1 Introduction 167 remediation 133 10.2 Preparationofnanomaterials 168 8.3.1 Advantagesofconventional 10.2.1 Componentsaffectingthe treatmentmethods 133 synthesisofgreennanoparticles 169 8.3.2 Bacteriainnanoparticlesynthesis 135 10.2.2 Mechanisticaspects 170 8.3.3 Themechanism 138 10.3 Advantagesofmicrobial-based 8.4 Challengesinnanoparticlesynthesis 140 nanomaterialsinwaterremediation 171 8.4.1 Bacteriaselection 140 10.4 Applicationofmicrobial-based 8.4.2 Selectionofreducingagents 140 nanomaterialswastewatertreatment 172 8.4.3 Optimizingtheconditionsfor 10.4.1 Titaniumdioxide 174 growthandenzymaticreactions 141 10.4.2 Silicananoparticles 174 8.4.4 Theprocessofextractionand 10.4.3 Zincoxide 175 purification 141 10.4.4 Graphene 176 8.4.5 Theprocessofstabilization 141 10.4.5 Ironnanoparticles 176 8.4.6 Theprocessofscaling 141 10.4.6 Zirconiananoparticles 177 8.4.7 Safetyissues 141 10.5 Futurerecommendations 178

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.