Antimicrobial carbon materials-based quantum dots: From synthesis strategies to antibacterial properties for diagnostic and therapeutic applications in wound healing

IF 20.3 1区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Coordination Chemistry Reviews Pub Date : 2024-09-18 DOI:10.1016/j.ccr.2024.216211
Iman Zare , Shima Zahed Nasab , Amid Rahi , Azadeh Ghaee , Morvarid Koohkhezri , Marzieh Ramezani Farani , Hanna Madadi Gholipour , Amir Hossein Atabaki , Michael R. Hamblin , Ebrahim Mostafavi , Heemin Kang
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Abstract

The emergence of multidrug resistance (MDR) pathogens and the rapid depletion of the antibiotic arsenal have sparked interest in discovering and developing innovative antimicrobial agents. One example of these new agents is antimicrobial nanostructured materials, which have received significant attention due to their intrinsic advantages and unique antibacterial mechanisms. Among such antimicrobial nanomaterials, carbon materials-based quantum dots (QDs), including graphene QDs (GQDs), graphene oxide QDs (GOQDs), and carbon QDs (CQDs), have a competitive edge due to their low cytotoxicity, ease of synthesis and modification, and highly uniform dispersibility in aqueous solutions. Carbon-based QDs can be prepared by “top-down” or “bottom-up” approaches, with tailorable properties and antimicrobial activity. The antibacterial properties of CQDs and GQDs, including ROS generation, bacterial membrane disruption, and interference with genomic DNA, have all been well described. For the first time, this review focuses on the emerging mechanisms for enhancing antibacterial effectiveness, such as antimicrobial phototherapy, enzymatic cascade activity, phytochemical therapy, and synergistic effects in combination with antimicrobial agents and herbal extracts for practical applications in bacterial detection and dressings for bacteria-infected wounds, ocular, periodontal, bone, and implant-related infections. Furthermore, the current challenges of carbon-based QDs are summarized, and their future promise for significantly improving treatment options instead of conventional methods against MDR bacteria is highlighted.

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基于抗菌碳材料的量子点:从合成策略到抗菌特性,在伤口愈合诊断和治疗中的应用
多重耐药性(MDR)病原体的出现和抗生素库的迅速枯竭引发了人们对发现和开发创新抗菌剂的兴趣。抗菌纳米结构材料就是这些新制剂中的一例,由于其固有的优势和独特的抗菌机制而备受关注。在这些抗菌纳米材料中,以碳材料为基础的量子点(QDs),包括石墨烯量子点(GQDs)、氧化石墨烯量子点(GOQDs)和碳量子点(CQDs),因其细胞毒性低、易于合成和修饰以及在水溶液中高度均匀分散而具有竞争优势。碳基 QDs 可通过 "自上而下 "或 "自下而上 "的方法制备,具有可定制的特性和抗菌活性。CQDs 和 GQDs 的抗菌特性,包括产生 ROS、破坏细菌膜和干扰基因组 DNA 等,都已得到充分描述。本综述首次重点介绍了增强抗菌效果的新兴机制,如抗菌光疗法、酶级联活性、植物化学疗法,以及与抗菌剂和草药提取物结合的协同效应,以实际应用于细菌检测和细菌感染伤口、眼部、牙周、骨骼和植入物相关感染的敷料。此外,还总结了碳基 QDs 目前面临的挑战,并强调了其未来有望取代传统方法,显著改善针对 MDR 细菌的治疗方案。
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来源期刊
Coordination Chemistry Reviews
Coordination Chemistry Reviews 化学-无机化学与核化学
CiteScore
34.30
自引率
5.30%
发文量
457
审稿时长
54 days
期刊介绍: Coordination Chemistry Reviews offers rapid publication of review articles on current and significant topics in coordination chemistry, encompassing organometallic, supramolecular, theoretical, and bioinorganic chemistry. It also covers catalysis, materials chemistry, and metal-organic frameworks from a coordination chemistry perspective. Reviews summarize recent developments or discuss specific techniques, welcoming contributions from both established and emerging researchers. The journal releases special issues on timely subjects, including those featuring contributions from specific regions or conferences. Occasional full-length book articles are also featured. Additionally, special volumes cover annual reviews of main group chemistry, transition metal group chemistry, and organometallic chemistry. These comprehensive reviews are vital resources for those engaged in coordination chemistry, further establishing Coordination Chemistry Reviews as a hub for insightful surveys in inorganic and physical inorganic chemistry.
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