10903nam 22005053 450 991100897590332120231110234430.09781644902295(electronic bk.)9781644902288(MiAaPQ)EBC30351407(Au-PeEL)EBL30351407(CKB)26050281000041(OCoLC)1369646100(Perlego)4733540(EXLCZ)992605028100004120230127d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierEmerging Applications of Nanomaterials1st ed.Millersville :Materials Research Forum LLC,2023.©2023.1 online resource (380 pages)Materials Research Foundations ;v.141Print version: Singh, N. B. Emerging Applications of Nanomaterials Millersville : Materials Research Forum LLC,c2023 9781644902288 Intro -- front-matter -- Table of Contents -- Preface -- 1 -- Introduction to Nanomaterials -- 1. Introduction -- 2. Classification of NMs -- 2.1 Nanocomposites -- 3. Synthesis of nanomaterials -- 3.1 Green route for synthesis of NMs -- 4. Characterization of nanoparticles -- 4.1 UV-visible spectroscopy -- 4.2 FTIR spectroscopy -- 4.3 Powder X-ray Diffraction -- 4.4 Electron microscopic techniques -- 4.5 Energy dispersive X-ray spectroscopy (EDX) -- 5. Applications -- Conclusions -- References -- 2 -- 1. Introduction -- 1.1 Why nanomaterials are the bridge between homogeneous and heterogeneous catalysis? -- 2. Effect of geometric structure -- 2.1 Controlling the size and shape -- 2.2 Effect of size -- 2.3 Effect of shape -- 3. Effect of composition -- 4. Role of support -- 4.1 Stabilization of nanoparticles -- 4.2 Electronic interaction between metal and the support -- 5. Single atom catalysts -- 6. Important applications -- 6.1 CO2 hydrogenations -- 6.2 Selective hydrogenations -- 6.3 Oxygen reduction reaction (ORR) at fuel cell -- 6.4 CO oxidation -- 6.5 Oxidation of hydrocarbons -- References -- 3 -- Green Chemical Synthesis in the Presence of Nanoparticles as Catalysts -- 1. Introduction -- 2. Chemical synthesis under borrowing hydrogen transfer hydrogen type coupling reactions with alcohols -- 2.1 Hydrogenation of carbonyl compounds and dehydrogenation of alcohols under the transfer-hydrogenation method -- 2.2 Selective c-alkylation reactions with alcohols under borrowing hydrogen methodology -- 2.2.1 α-alkylation of ketones with alcohols -- 2.2.2 Selective C3 alkylation of oxindoles with primary alcohols -- 2.2.3 Selective C3 alkylation of indoles with primary alcohols -- 2.2.4 Selective self and cross-coupling reactions of secondary and primary alcohols -- 2.2.5 Selective alkylation at CH3 group of 2-methyl quinoline with primary alcohols.2.3 Selective N-alkylation reactions with alcohols under borrowing hydrogen methodology (C-N and C-S bond formation reactions) -- 2.3.1 N-alkylation of amines with alcohols -- 2.3.2 Selective N-alkylation of indoles with alcohols -- 2.3.3 Quinolines synthesis from nitroarenes and alcohols (selective N and C-alkylation) -- Conclusions -- References -- 4 -- Emerging Nano-Enable Materials in the Sports Industry -- 1. Introduction -- 2. Properties of nano-enable sports materials -- 2.1 Waterproof -- 2.2 Anti-bacterial property -- 2.3 UV protection -- 2.4 Self-cleaning -- 2.5 Heat and cold protection -- 2.6 Well-being -- 3. Nanomaterials and nanocomposites in sportswear and sports shoe -- 3.1 Nanofibres -- 3.2 Nanocomposite fibres -- 3.2.1 Metal matrix composites (MMCs) -- 3.2.2 Ceramic matrix composites -- 3.2.3 Polymer matrix composites -- 3.3 Nano-finishing -- 3.3.1 Ex-situ -- 3.2.2 In-situ -- 4. Nanomaterials and nanocomposites in sports equipment -- 4.1 Carbon nanotubes (CNTs) -- 4.2 Silicon nanoparticles -- 4.3 Fullerenes -- 4.4 Nanoclays -- 4.5 Zinc-oxide nanoparticles -- 4.6 Nanocomposites -- 5. Analysis of nanomaterial's used in sports industries -- 6. Methods for evaluating the characteristics of sportswear -- 7. Current status of nanotechnology in sports -- 8. Concluding remarks and future aspects of nanotechnology in sports -- References -- 5 -- Nanocatalysts for the Photodegradation of Organic Pollutants -- 1. Introduction -- 2. Features of POPs family -- 3. AOPs used for water treatment -- 4. Photocatalytic degradation of POPs -- 4.1 Basic principles -- 4.2 Photocatalytic performance -- 4.2.1 3d-block transition metal oxides -- 4.2.1.1 Titanium oxide -- 4.2.1.2 Manganese oxide -- 4.2.1.3 Zinc oxide -- 4.2.1.4 Iron oxide -- 4.2.2 Supported Metal Oxides Nanocomposites -- 4.3 Factors influencing photocatalytic degradation.4.3.1 Initial concentration of pollutants -- 4.3.2 Dose of catalysts -- 4.3.3 Solution pH -- 5. Concluding remarks -- References -- 6 -- Nanomaterials in the Automobile Sector -- 1. Introduction -- 2. Polymer nanocomposites (PNCs) -- 3. Nanoalloys -- 4. Nanolubricants -- 5. Nanocatalyst and nanoadditives -- 6. Nanocoating -- 7. Major challenges and possible solutions -- 8. Future prospects -- Conclusion -- Acknowledgements -- References -- 7 -- 1. Introduction -- 2. Applications of nanotechnology in defence and security -- 2.1 Nanotechnology in the information system -- 2.2 Nanotechnology in biological sensing -- 2.3 Nanotechnology in nuclear detection -- 3. Nanotechnology in virtual reality system -- 4. Nanotechnology in chemical (explosive) sensing -- 5. Nanotechnology in nanomedicine -- 6. Nanotechnology in automation and robotics -- 7. Nanotechnology in clothing -- 8. Nanotechnology in military platform -- Conclusions -- References -- 8 -- Nanomaterials for Multifunctional Textiles -- 1. Introduction -- 1.1 Functional processes -- 1.2 Innovative textiles based on nanotechnology -- 1.2.1 Nanomaterials -- 1.2.2 Nanofinishing -- 1.2.3 Nanocoatings -- 1.2.4 Nanofibers -- 1.2.5 Nanocomposites -- 1.2.5.1 Fibers -- 1.2.5.2 Coatings -- 2. Technologies used for production of multifunctional textiles -- 2.1 Antimicrobial finish -- 2.2 UV protection -- 2.3 Self-cleaning -- 2.3.1 Superhydrophobicity and self-cleaning -- 2.3.2 Photocatalysis and self-cleaning -- 2.3.3 Self-cleaning testing -- 2.4 Wrinkle resistance -- 2.5 Flame retardant finish -- 2.5.1 Adsorption of NPs -- 2.5.2 Layer-by-Layer assembly -- 2.5.3 Sol-gel coating based on silica -- 2.5.4 Plasma technique for surface grafting -- 2.6 Antistatic finish -- 2.7 Hydrophilic finish textiles -- 3. Current challenges and future scope -- Conclusions -- Acknowledgement -- Competing financial interests.References -- 9 -- Nanomaterials in Pharmaceuticals -- 1. Introduction -- 2. Application of nanomaterials in pharmaceutical -- 2.1 Application of nanomaterials in the delivery of drugs -- 2.1.1 Lipid nanomaterials in the delivery of drugs -- 2.1.2 Carbon-based nanomaterials (CBNs) in drug delivery -- 2.1.3 Polymeric nanomaterials in drug delivery -- 2.1.4 Drug delivery based on nanogel -- 2.1.5 Drug delivery based on metal nanomaterials -- 2.1.6 Drug delivery based on dendrimer -- 2.2 Nanomaterials in gene delivery -- 2.3 Nanomaterial in co-delivery systems -- 3. Approved pharmaceutical therapeutic nanosystems -- 4. Nanomaterial in vaccine technology -- 5. Application of nanomaterials in imaging -- 6. Nanotechnology and safety issues -- Conclusions -- Acknowledgments -- References -- 10 -- Nanotechnology/Nanosensors for the Detection of Pathogens -- 1. Introduction -- 2. Use of nanosensors in infectious disease diagnosis -- 2.1 The use of nanosensors in the detection of viruses -- 2.1.1 Nanosensors in SARS-CoV-2 detection -- 2.1.1.1 Aptameric nanosensors -- 2.1.1.2 Electrochemical nanosensors based on molecularly imprinted polymers (MIPs) -- 2.1.1.3 Magnetic nanosensors -- 2.1.2 Nanosensors for the detection of the human immunodeficiency virus (HIV) -- 2.1.3 Nanosensors for the detection of Hepatitis B virus -- 2.1.4 Nanosensors for the detection of human papillomavirus (HPV) -- 2.1.5 Nanosensors for the detection of Ebola virus -- 2.1.6 Zika virus detection with nanosensors -- 2.1.7 Nanosensors for the detection of influenza virus -- 2.1.8 Nanosensors for the detection of viruses other than those mentioned in this section -- 2.2 The use of nanosensors in the detection of bacteria -- 2.2.1 Sensors based on nanoparticles for bacterial disease detection.2.2.1.1 Application of nanosensors for the detection of multiple anti-microbial resistant pathogens (SERS detection) -- 2.2.1.2 Multiplexed nanosensors for remote near-infrared (NIR) detection of bacteria -- 2.2.1.3 Nanosensors for the detection of protease and engineered phage-infected bacteria -- 2.2.1.4 Use of plasmonic nanosensors for the identification of urease positive bacteria -- 2.2.1.5 Use of nanosensors for the detection of Escherichia coli O157:H7 -- 2.2.2 Nanosensors for detection of pathogenic bacteria in water -- 2.2.3 Food pathogen detection with nanosensors -- 2.2.4 Monitoring of food quality and safety using nanosensors -- 2.2.5 Nanosensors for the detection of plant pathogens -- Conclusion and future outlook -- References -- 11 -- Nanomaterials for Self-Healing Hydrogels -- 1. Introduction -- 2. Self-healing mechanism in nanocomposite hydrogels -- 3. Recent progress of nanocomposite hydrogels for self-healing -- 3.1 Hydrogel self-healing with metal nanoparticles -- 3.2 Self-healing of hydrogels with carbon-based nanoparticles -- 3.3 Hydrogel self-healing with polymeric nanoparticles -- 3.4 Hydrogel self-healing with biobased nanoparticles -- 4. Self-healing characterization methods -- 4.1 Microscopic analysis -- 4.2 Spectroscopic analysis -- 4.3 Mechanical test -- 5. Factors affecting self-healing with nanomaterials -- 5.1 Dimension of components -- 5.2 Chemical groups -- 5.3 Temperature -- 5.4 Aging effect -- 5.5 Water content -- Conclusion and future aspects -- References -- 12 -- Emerging Nanomaterials in Energy Storage -- 1. Introduction -- 2. Basics of energy storage system (batteries) -- 2.1 Charging -- 2.2 Discharging -- 3. Different categories of batteries -- 3.1 Primary batteries -- 3.1.2 Lithium (Li) as primary batteries -- 3.1.3 Lithium/thionyl chloride batteries (Li/SOCl2) -- 3.2 Secondary batteries.3.2.1 Categories and classification of secondary batteries.This book reviews new advances in the field of nanomaterials; their synthesis, characterization, and applications.Materials Research Foundations Nanostructured materialsNanostructured materials.Singh N. B1151174MiAaPQMiAaPQMiAaPQ9911008975903321Emerging Applications of Nanomaterials4395117UNINA05325nam 22006735 450 991098769020332120250313115223.03-031-84312-610.1007/978-3-031-84312-9(CKB)37916647900041(DE-He213)978-3-031-84312-9(MiAaPQ)EBC31959365(Au-PeEL)EBL31959365(EXLCZ)993791664790004120250313d2025 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierComputer Science and Education in Computer Science 20th EAI International Conference, CSECS 2024, Sofia, Bulgaria, June 28–30, 2024, Proceedings /edited by Tanya Zlateva, Georgi Tuparov1st ed. 2025.Cham :Springer Nature Switzerland :Imprint: Springer,2025.1 online resource (XIII, 362 p. 199 illus., 106 illus. in color.) Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering,1867-822X ;6093-031-84311-8 -- Computer Science Implementations. -- Taxi Application over Peer-to-Peer Mobile Networks. -- A Predictive Model of Arrival Times for Smart Shuttle Buses in Astana, Kazakhstan. -- Enabling Autonomy through Voice Control: AI-Assisted Mobile Platform. -- Computational Math. -- MaRz: A Fast, Transparent Fuzzy Machine Learning Technique. -- Segmentation and Data Extraction from Carte du Ciel Astrographic Maps. -- Quadratic Sets and (3 mod 5)-arcs in PG(r,5). -- The Periodic Table: Chemical Properties and Mendeleev meets Physical Properties and Machine Learning. -- Computing Technologies. -- Large Language Models for identification of medical data in unstructured records. -- Impact of the iteration length on the software quality. -- Double-Stranded Differential Evolution and Particle Swarm Optimization with LibreOffice Nonlinear Programming Solver. -- Analyzing the Geometric Ratios of Greek Vases. -- Implementations in Medicine. -- Assessment of Segmentation Models on Panoramic Radiographic Dental Images. -- 3D Cycle-consistent Adversarial Network for Designing Dental Implant Crown. -- Eliminating Risk involved in using ChatGPT for Clinical Decision Support System. -- Innovative Approaches for the Mental Development and Education of Children with Autism through Mixed Reality. -- Engineering Implementations. -- Applications of Simulation Modeling and Computer Visualizations for Studying Structured Crystals forImplementation in Technical Devices. -- Harnessing Programmable Logic for Quaternion Multiplication. -- Education in Computer Science. -- Digital transformation in primary and secondary education in Bulgaria. -- Building a Chatbot to Adopt an Effective Learning Strategy for Graduate Courses in Computer Science. -- Impact of the Self-training over Formative Assessment in SQL part of University Database Course. -- Teaching and Learning Python by Comparative Visualization. -- An Interdisciplinary Approach in Education of Master Students in Intelligent Sustainable Habitats. -- Cross-Continental Insights: Comparative Analysis of Using AI for Information System Stakeholder Analysis in Undergraduate Courses in the EU and USA.This book constitutes the refereed post-conference proceedings of the 20th International Conference on Computer Science and Education in Computer Science, CSECS 2024, held in Sofia, Bulgaria, during June 28–30, 2024. The 19 full papers and 4 short papers were carefully reviewed and selected from 49 submissions.The papers cover the following topics: Computer Science Implementations; Computational Math; Computing Technologies; Implementations in Medicine; Engineering Implementations; Education in Computer Science.Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering,1867-822X ;609Computer networksSoftware engineeringApplication softwareEducationData processingSocial sciencesData processingComputer Communication NetworksSoftware EngineeringComputer and Information Systems ApplicationsComputers and EducationComputer Application in Social and Behavioral SciencesComputer networks.Software engineering.Application software.EducationData processing.Social sciencesData processing.Computer Communication Networks.Software Engineering.Computer and Information Systems Applications.Computers and Education.Computer Application in Social and Behavioral Sciences.004.6Zlateva Tanyaedthttp://id.loc.gov/vocabulary/relators/edtTuparov Georgiedthttp://id.loc.gov/vocabulary/relators/edtMiAaPQMiAaPQMiAaPQBOOK9910987690203321Computer science and education in computer science3071099UNINA