Green Chemistry in Nanotechnology for Sustainable Synthesis, Characterization, and Applications of Nanoparticles
暫譯: 綠色化學在奈米技術中的應用:奈米粒子的可持續合成、特徵化與應用
Ashoka, Hadagali, Rangaswamy, B. E., Desai, Usha
- 出版商: CRC
- 出版日期: 2026-03-30
- 售價: $4,960
- 貴賓價: 9.5 折 $4,712
- 語言: 英文
- 頁數: 312
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 1041082363
- ISBN-13: 9781041082361
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相關分類:
材料科學 Meterials
海外代購書籍(需單獨結帳)
相關主題
商品描述
Nanotechnology has become one of the most revolutionary scientific domains of the 21st century, providing answers for healthcare, renewable energy, environmental cleanup, and industrial advancements. Nonetheless, the swift expansion of this technology necessitates a comparable dedication to environmental responsibility and safety. Green Chemistry in Nanotechnology for Sustainable Synthesis, Characterization, and Applications of Nanoparticles meets this requirement by combining green chemistry principles with cutting-edge nanoscience.
This edited collection offers an extensive summary of sustainable nanomaterial creation, starting with fundamental principles and synthesis methods based on renewable resources. It explores eco-friendly and bioinspired methods for producing gold, silver, calcium, and metal oxide nanoparticles, backed by in-depth case studies. Extensive coverage is provided on advanced characterization techniques, delivering insights into structural, morphological, and functional assessment. The book examines various applications, such as food packaging, antimicrobial surfaces, catalytic processes, energy devices, and biomedical technologies.
A specific part on nanotoxicology showcases contemporary safety evaluation techniques, including organs-on-chips and 3D cell culture systems, while conversations regarding ethics and sustainability stress responsible innovation. The combination of scientific, safety, and social factors sets this work apart in its breadth.
By connecting core concepts with real-world uses, the book acts as an essential tool for researchers, scholars, and industry experts aiming to create nanotechnology solutions that are not only efficient but also safe, sustainable, and ethically responsible. Policymakers and regulatory organizations will also appreciate it for developing frameworks that guarantee nanotechnology aids in advancing global sustainability objectives.
This book merges green chemistry with nanotechnology, enabling synthesis from sustainable pathways and characterization through advanced techniques jointly with applications and ethical considerations all under one roof. Works by world top-rated scientists propose renewable-resource-based, bioinspired, and eco-friendly routes toward synthesis of widely varying nanoparticles that make sense in real life. Case studies with applications in health care, food packaging, catalysis, and industrial plus environmental remediation work supported by the most advanced tools of nanotoxicological assessment, such as organs-on-chips and 3D cell cultures, are also presented here. Scientific novelty will be integrated with safety and sustainability so that learners can not only create new forms of nanomaterials but also "create safely." By combining breadth, depth, and practical insight, this work stands as an indispensable guide for researchers, industry professionals, policymakers, and educators shaping the future of sustainable nanotechnology.
商品描述(中文翻譯)
奈米科技已成為21世紀最具革命性的科學領域之一,為醫療保健、可再生能源、環境清理和工業進步提供了解決方案。然而,這項技術的迅速擴展需要對環境責任和安全性有相應的承諾。《奈米科技中的綠色化學:可持續合成、表徵和奈米粒子的應用》滿足了這一要求,將綠色化學原則與尖端奈米科學相結合。
這本編輯集提供了可持續奈米材料創造的廣泛總結,從基礎原則和基於可再生資源的合成方法開始。它探討了生態友好和生物啟發的方法來生產金、銀、鈣和金屬氧化物奈米粒子,並附有深入的案例研究。書中對先進的表徵技術進行了廣泛的覆蓋,提供了結構、形態和功能評估的見解。該書檢視了各種應用,如食品包裝、抗菌表面、催化過程、能源設備和生醫技術。
專門針對奈米毒理學的部分展示了當前的安全評估技術,包括器官芯片和3D細胞培養系統,同時關於倫理和可持續性的討論強調了負責任的創新。科學、安全和社會因素的結合使這部作品在其廣度上獨樹一幟。
通過將核心概念與現實世界的應用相連接,這本書成為研究人員、學者和行業專家創造不僅高效而且安全、可持續和倫理負責的奈米科技解決方案的重要工具。政策制定者和監管機構也會欣賞這本書,因為它有助於制定確保奈米科技促進全球可持續發展目標的框架。
這本書將綠色化學與奈米科技相結合,使得從可持續途徑合成和通過先進技術進行表徵的應用和倫理考量都集中在一個平台上。世界頂尖科學家的研究提出了基於可再生資源的、生物啟發的和生態友好的合成路徑,這些路徑在現實生活中是有意義的。書中還呈現了在醫療保健、食品包裝、催化和工業及環境修復等應用中的案例研究,這些研究得到了最先進的奈米毒理評估工具的支持,如器官芯片和3D細胞培養。科學的新穎性將與安全性和可持續性相結合,使學習者不僅能創造新的奈米材料,還能“安全創造”。通過結合廣度、深度和實用見解,這部作品成為研究人員、行業專業人士、政策制定者和教育工作者塑造可持續奈米科技未來的不可或缺的指南。
作者簡介
Ashoka Hadagali, a faculty member at B.M.S. College of Engineering since 2009, specializes in Biotechnology and diabetes modeling. With a Ph.D. from IIT Bombay, his research bridges natural therapeutics and pharmacology. He is a passionate educator, prolific researcher, and active contributor to scientific journals and professional communities.
B.E. Rangaswamy, Registrar at Visvesvaraya Technological University, Belagavi, Karnataka. He is Professor of Biotechnology and a renowned expert in aerobiology, microbial diversity, and bio-pollution. With over 80 research papers, numerous national and international presentations, and patents, he has led impactful projects funded by premier agencies like DST, DBT, AICTE, VGST and VTU other agencies. Recipient of multiple prestigious awards, including the, PH Gregory Award, Rajaram Bapu National Award and Karnataka Rajyothsava Award by Davangere District. Dr. Rangaswamy has significantly contributed to sustainable technologies, public health research, and rural development through vermicomposting, beekeeping, and biodegradable product innovations, inspiring future scientists and fostering community welfare.
Usha Desai, Professor and Dean Research and Development at S.E.A College of Engineering & Technology, Bengaluru is an accomplished researcher in biomedical signal processing, AI, and brain-computer interfaces (BCI), with 21 years' academic experience. Dr. Desai has contributed over 70 publications in impactful journals, books and global conferences.
Rakesh Sengupta is a researcher and Assistant Professor in SIAS, Krea University, Sri City, India since 2025. His interdisciplinary background spans cognitive & computational neuroscience and AI. He has worked before in University of Trento, Italy and York University, Canada as visiting scholar and postdoc, respectively. He has a growing scholarly record with 28 indexed publications, over 300 citations, H index of 9.
Balakrishna S. Maddodi, Academician and NSS Program Officer at Manipal Institute of Technology, India, is an expert in engineering geology, environmental management, GIS, remote sensing, solid waste management, and green chemistry, with over 27 years of influential teaching and research experience in diverse areas of education and innovation.
作者簡介(中文翻譯)
Ashoka Hadagali自2009年以來擔任B.M.S.工程學院的教職,專注於生物技術和糖尿病建模。他擁有印度理工學院孟買分校的博士學位,研究領域涵蓋自然療法和藥理學。他是一位充滿熱情的教育者, prolific researcher,並積極參與科學期刊和專業社群的貢獻。
B.E. Rangaswamy是卡納塔克邦Belagavi的Visvesvaraya科技大學的註冊主任。他是生物技術教授,並在空氣生物學、微生物多樣性和生物污染方面享有盛譽。擁有超過80篇研究論文、眾多國內外演講和專利,他主導了由DST、DBT、AICTE、VGST和VTU等主要機構資助的影響力項目。獲得多項著名獎項,包括PH Gregory獎、Rajaram Bapu國家獎和由Davangere區頒發的卡納塔克Rajyothsava獎。Rangaswamy博士在可持續技術、公共健康研究和通過蚯蚓堆肥、養蜂和生物可降解產品創新促進農村發展方面做出了重要貢獻,激勵未來的科學家並促進社區福祉。
Usha Desai是班加羅爾S.E.A工程與技術學院的研究與發展院長及教授,是生物醫學信號處理、人工智慧和腦機介面(BCI)方面的傑出研究者,擁有21年的學術經驗。Desai博士在影響力期刊、書籍和全球會議上發表了超過70篇論文。
Rakesh Sengupta自2025年起擔任印度Sri City Krea大學SIAS的研究員和助理教授。他的跨學科背景涵蓋認知與計算神經科學及人工智慧。他曾在意大利特倫托大學和加拿大約克大學擔任訪問學者和博士後研究員,並擁有不斷增長的學術記錄,擁有28篇被索引的出版物,超過300次引用,H指數為9。
Balakrishna S. Maddodi是印度Manipal科技學院的學者和NSS計劃官員,專長於工程地質、環境管理、地理資訊系統(GIS)、遙感、固體廢物管理和綠色化學,擁有超過27年的影響力教學和研究經驗,涵蓋多個教育和創新領域。
