期刊
ACS APPLIED MATERIALS & INTERFACES
卷 12, 期 41, 页码 46588-46597出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.0c15389
关键词
2D nanomaterials; micromotors; nanomotors; biosensing; peptide; toxin; Cholera B; Vibrio cholerae
资金
- Spanish Ministry of Economy, Industry and Competitiveness - EU [CTQ2017-86441C2-1-R, RYC-2015-17558]
- University of Alcala [CCG19/CC-029]
- Community of Madrid [S2018/NMT-4349, CM/JIN/2019007]
In this work, we study the interaction of graphdiyne oxide (GDYO)-, graphene oxide (GO)-, or black phosphorous (BP)-wrapped Janus micromotors using a model system relying on a fluorescence-labeled affinity peptide, which is released upon specific interaction with a target Cholera Toxin B. Such ON-OFF-ON system allows mimicking similar processes occurring at (bio)-interfaces and to study the related sorption and desorption kinetics. The distinct surface properties of each nanomaterial play a critical role in the loading/release capacity of the peptide, greatly influencing the release profiles. Sorption obeys a second-order kinetic model using the two-dimensional (2D) nanomaterials in connection with micromotors, indicating a strong influence of chemisorption process for BP micromotors. Yet, release kinetics are faster for GDYO and GO nanomaterials, indicating a contribution of pi and hydrophobic interactions in the probe sorption (Cholera Toxin B affinity peptide) and target probe release (in the presence of Cholera Toxin B). Micromotor movement also plays a critical role in such processes, allowing for efficient operation in low raw sample volumes, where the high protein content can diminish probe loading/release, affecting the overall performance. The loading/release capacity and feasibility of the (bio)-sensing protocol are illustrated in Vibrio cholerae and Vibrio parahaemolyticus bacteria cultures as realistic domains. The new concept described here holds considerable promise to understand the interaction of micromotor with biological counterparts in a myriad of biomedical and other practical applications, including the design of novel micromotor-based sensors.
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