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001436532 001__ 1436532
001436532 003__ OCoLC
001436532 005__ 20230309004031.0
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001436532 019__ $$a1250474608
001436532 020__ $$a9783030680312$$q(electronic bk.)
001436532 020__ $$a3030680312$$q(electronic bk.)
001436532 020__ $$z9783030680305$$q(print)
001436532 020__ $$z3030680304
001436532 0247_ $$a10.1007/978-3-030-68031-2$$2doi
001436532 035__ $$aSP(OCoLC)1250351488
001436532 040__ $$aGW5XE$$beng$$erda$$epn$$cGW5XE$$dOCLCO$$dYDX$$dEBLCP$$dUKAHL$$dOCLCQ$$dOCLCO$$dCOM$$dOCLCQ
001436532 049__ $$aISEA
001436532 050_4 $$aTD794.5
001436532 08204 $$a628.4/458$$223
001436532 24500 $$aWaste recycling technologies for nanomaterials manufacturing /$$cAbdel Salam Hamdy Makhlouf, Gomaa A.M. Ali, editors.
001436532 264_1 $$aCham :$$bSpringer,$$c2021.
001436532 300__ $$a1 online resource (xx, 870 pages) :$$billustrations (some color)
001436532 336__ $$atext$$btxt$$2rdacontent
001436532 337__ $$acomputer$$bc$$2rdamedia
001436532 338__ $$aonline resource$$bcr$$2rdacarrier
001436532 4901_ $$aTopics in mining, metallurgy and materials engineering,$$x2364-3293
001436532 5050_ $$aWaste Recycling Technologies for Nanomaterials Manufacturing: Fundamental, Current Prospects, and Future Trends -- Recycling, Management, Valorization of Industrial Solid Wastes -- Introduction: Environmental, Suceptbility and Nano-waste -- : Recycling of Cobalt Oxides Electrodes from Spent Lithium-Ion Batteries by Electrochemical Method -- Recovery of Nanomaterials for Battery Application -- Cost-Effective Nanomaterials Fabricated Recycling Spent Batteries -- Recycled Nanomaterials for Energy Storage (Supercapacitor) Applications -- Recovery of Metal Oxide Nanomaterials from Electronic Waste Materials -- Nanosensors and Nanobiosensors for Monitoring the Environmental Pollutants -- Waste Recovered Nanomaterials for Emerging Electrocatalytic Applications -- Recycling of Nanosilica Powder from Bamboo Leaves and Rice Husks for Forensic Applications -- Recycling of nano-silica from agricultural, electronic, and industrial waste for wastewater treatment -- Extraction of Silica and Lignin-Based Nanocomposite Materials from Agricultural Waste for Wastewater Treatment Using Photocatalysis Technique -- Waste Recycling Technologies for Nanomaterials Manufacturing -- Recent trends of recycled nanomaterials and their outstanding applications: carbon-based nanomaterials as examples -- Hetero-Atoms Doped Porous Carbon Nanostructures Recovered from Agriculture Waste for Energy Conversion and Storage -- Activated Carbon-based Materials in removal of organic pollutant from Wastewater -- Rice Husk Derived Nanomaterials for Potential Applications -- Recycle Strategies to Deal with Metal Nanomaterials by Using Aquatic Plants Through Phytoremediation Technique -- Advanced Waste Recycling Technologies to Manufacturing Nanomaterials for Green Energy: Current Status and Future Perspectives -- Nanoformulated materials from citrus wastes -- Bottom-Up Approach through Microbial Green Biosynthesis of Nanoparticles from Waste -- : Conversion of Waste Cheap Petroleum Paraffinic Wax By-Products to Expensive Valuable Multiple Carbon Nanomaterials -- Recycling Polyethylene tirephthalate (PET) Waste to Magnetic Carbon/Iron -- Recycling of Waste Plastic-Based Nanomaterials and their Applications -- Recycling Nanofibers from Polyethylene Terephthalate Waste using Electrospinning Technique -- Reinforcement of Petroleum Wax By-Product Paraffins as Phase Change Materials for Thermal Energy Storage by Recycled Nanomaterials -- Manufacturing of Nano-Alumina By Recycling Cans Waste.
001436532 506__ $$aAccess limited to authorized users.
001436532 520__ $$aThis book discusses the recent advances in the wastes recycling technologies to provide low-cost and alternative ways for nanomaterials production. It shows how carbon nanomaterials can be synthesized from different waste sources such as banana fibers, argan (Argania spinosa) seed shells, corn grains, camellia oleifera shell, sugar cane bagasse, oil palm (empty fruit bunches and leaves) and palm kernel shells. Several nanostructured metal oxides (MnO2, Co3O4, ...) can be synthesized via recycling of spent batteries. The recovered nanomaterials can be applied in many applications including: Energy (supercapacitors, solar cells, etc.) water treatments (heavy metal ions and dyes removal) and other applications. Spent battery and agriculture waste are rich precursors for metals and carbon, respectively. The book also explores the various recycling techniques, agriculture waste recycling, batteries recycling, and different applications of the recycled materials.
001436532 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed May 12, 2021).
001436532 650_0 $$aNanostructured materials$$xRecycling.
001436532 650_6 $$aNanomatériaux$$xRecyclage.
001436532 655_0 $$aElectronic books.
001436532 7001_ $$aMakhlouf, Abdel Salam Hamdy,$$eeditor.
001436532 7001_ $$aAli, Gomaa A. M.,$$eeditor.
001436532 77608 $$iPrint version:$$tWaste recycling technologies for nanomaterials manufacturing.$$dCham : Springer, 2021$$z3030680304$$z9783030680305$$w(OCoLC)1227382455
001436532 830_0 $$aTopics in mining, metallurgy and materials engineering,$$x2364-3293
001436532 852__ $$bebk
001436532 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-3-030-68031-2$$zOnline Access$$91397441.1
001436532 909CO $$ooai:library.usi.edu:1436532$$pGLOBAL_SET
001436532 980__ $$aBIB
001436532 980__ $$aEBOOK
001436532 982__ $$aEbook
001436532 983__ $$aOnline
001436532 994__ $$a92$$bISE