Titlebook: Nanotechnology Based Strategies for Combating Antimicrobial Resistance ; Mohmmad Younus Wani,Irshad Ahmad Wani,Akhilesh Rai Book 2024 The

Custodian

Nanotechnology-Based Tools to Overcome Antimicrobial Resistance,ers, specifically metal nanoparticles such as copper, zinc, and silver on biofilm populations, has been examined. This chapter provides an extensive overview of the future prospects of nanotechnology for overcoming antimicrobial resistance.

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愛花花兒憤怒

不理會(huì)

Antimicrobial Peptide-Based Nanomaterials in Combating Multidrug-Resistant Bacteria,, the mechanism of action of AMPs, the technique of designing AMP-based nanomaterials, and the application and classification of such AMPs. A brief discussion has also been provided on the challenges of developing AMP-based nanomaterials and strategies to overcome them. Finally, the chapter summariz

入會(huì)

Nanocomposites in Combating Antimicrobial Resistance,op AMR. Developing nanocomposites can provide synergistic effects to improve the properties and strengthen the antimicrobial capability of individual nanomaterials. In this chapter, contemporary developments in the application of antimicrobial composites such as carbon nanocomposites, metallic nanoc

多產(chǎn)魚

Anthrp

Polymer-Based Nanomaterials Against Multidrug-Resistant Bacteria,g concentration, enlarging the efficient delivery of antimicrobial agents and reducing bacterial resistance. The present chapter explores new and improved polymer-based nanotechnology strategies and approaches with potential to circumvent antimicrobial resistance of MDRB, highlighting their mechanis

PALL

Development of Nanoemulsion-Based Drug Carrier Molecules in the Fight Against Multi-Drug Resistancen. Although this method is largely successful, the major limitation accompanying administration of combination therapy is increased off-target effects and toxicity. Consequently, drug-carrier molecules such as nanoemulsions, metal, cationic, and polymer-based nanoparticles have been designed to faci

生存環(huán)境

Nanoemulsions as Drug Carriers to Combat AMR,emulsions significantly enhances their activity. The utilization of natural products including essential oil derived from plants ignited the interest of the pharmaceutical and food industries, owing to the possibility of minimal toxicities and the existence of a wide range of medicinal characteristi