Yıldırım S., Erkmen C., Unal D. N., Kanbeş Dindar Ç., Uslu B.
Nanostructured Carbon Materials from Plant Extracts, Sreeraj Gopi,Aryamol K. S.,Sabu Thomas,Jozef T. Haponiuk,Hanna J. Maria, Editör, Elsevier Science, Oxford/Amsterdam , Amsterdam, ss.381-414, 2025
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Yayın Türü:
Kitapta Bölüm / Araştırma Kitabı
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Basım Tarihi:
2025
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Doi Numarası:
10.1016/b978-0-323-95126-5.00011-1
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Yayınevi:
Elsevier Science, Oxford/Amsterdam
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Basıldığı Şehir:
Amsterdam
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Sayfa Sayıları:
ss.381-414
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Editörler:
Sreeraj Gopi,Aryamol K. S.,Sabu Thomas,Jozef T. Haponiuk,Hanna J. Maria, Editör
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Ankara Üniversitesi Adresli:
Evet
Özet
Abstract
Applications of nanomaterials have significantly increased recently in agriculture since they can act as growth regulators, pesticides, fertilizers, antimicrobial agents, and biosensors. Among them, carbon nanomaterials, which have been proven to affect crop growth, physiological functions, and production, have emerged as appealing alternatives. Although fossil-derived precursors are generally used in carbon nanomaterial synthesis, the focus has shifted to sustainable, renewable, and eco-friendly sources such as plants due to the increasing importance of green chemistry applications. Consequently, this chapter aims to provide a deeper insight into the synthesis, applications, and future uses of plant-derived carbon nanomaterials in agriculture. Promotion of plant growth, removal of excess reactive oxygen species, and enhancement in tolerance against salt, temperature, and UV-B stress are among the advantages obtained with plant-based carbon nanomaterials. Moreover, these nanomaterials are employed in analytical methods that can be applied to determine the characteristics of agricultural fields and quality control of agricultural products. On the other hand, limited data exist for their ecotoxic effects. In this manner, further studies are required before plant-based carbon nanomaterials can be used on a large scale.