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    Bioremediation of pesticides using microbial consortium: Challenges and future perspectives
    (Springer International Publishing, 2022) Yilmaz, Gaye Ezgi; Göktürk, Ilgim; Safran, Volkan; Yilmaz, Fatma; Denizli, Adil
    The widespread use of pesticides causes serious environmental and health problems. Pesticide use not only degrades soil quality but also enters the aquatic environment, so decontamination of pesticide-contaminated areas is a very complex process. The conventional methods used to remove polluting chemicals from the environment are not sufficient for the removal of pesticides. New technologies such as environmentally friendly, economical, and versatile bioremediation methods are required that take advantage of the ability of microorganisms to remove pollution from the environment. The use of microbial consortia has very important advantages in the bioremediation of pollution caused by pesticides. In this chapter, recent applications of microbial consortia used in pesticide bioremediation are discussed. © The Author(s), under exclusive license to Springer Nature Switzerland AG 2022.
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    The Detection of Chemical and Biological Threat Agents Using Nanomaterial-Based Plasmonic Nanosensors
    (CRC Press, 2024) Aşir, Süleyman; Türkmen, Deniz; Ovezova, Mamajan; Göktürk, Ilgim; Yilmaz, Gaye Ezgi; Yilmaz, Fatma
    It is important to detect chemical and biological threat agents for homeland security and defense, and new detection methods with intelligent capabilities need to be developed. The hazards caused by biological and chemical threat agents and the limited availability of modern methods for detecting these agents form the basis of the need to develop new sensors. In recent years, nanomaterial-based plasmonic sensors have been widely used in applications for detecting chemical and biological threat agents due to their advantages. The large surface area to volume ratio of nanomaterials has enabled many possibilities for the creation of new nanosensors to be used for sensing. Herein, we provide an overview of biological and chemical threat agents. After giving a brief overview of the working principles of plasmonic sensors, the applications used to detect a broad spectrum of biological and chemical threat agents is extensively discussed. The final section summarizes concluding remarks about the identification of biological and chemical threat agents using nanomaterial-based plasmonic nanosensors and future perspectives. © 2024 selection and editorial matter, Adil Denizli; individual chapters, the contributors.