Martin D. Baaske scite author profile

Biosensing relies on the detection of molecules and their specific interactions. It is therefore highly desirable to develop transducers exhibiting ultimate detection limits. Microcavities are an exemplary candidate technology for demonstrating such a capability in the optical domain and in a label-free fashion. Additional sensitivity gains, achievable by exploiting plasmon resonances, promise biosensing down to the single-molecule level. Here, we introduce a biosensing platform using optical microcavity-based sensors that exhibits single-molecule sensitivity and is selective to specific single binding events. Whispering gallery modes in glass microspheres are used to leverage plasmonic enhancements in gold nanorods for the specific detection of nucleic acid hybridization, down to single 8-mer oligonucleotides. Detection of single intercalating small molecules confirms the observation of single-molecule hybridization. Matched and mismatched strands are discriminated by their interaction kinetics. Our platform allows us to monitor specific molecular interactions transiently, hence mitigating the need for high binding affinity and avoiding permanent binding of target molecules to the receptors. Sensor lifetime is therefore increased, allowing interaction kinetics to be statistically analysed.

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Optical observation of single atomic ions interacting with plasmonic nanorods in aqueous solution

Baaske

2016

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Plasmonic nanoparticles provide the basis for a multitude of applications in chemistry, health care, and optics due to their unique and tunable properties. Nanoparticle based techniques have evolved into powerful tools for studying molecules and their specific interactions even at the single molecule level. Here we show that this sensing capability can be used for detecting single atomic ions in aqueous medium. We monitor interactions of single zinc and mercury ions with plasmonic gold nanorods resonantly coupled to our whispering gallery mode sensor. Our system's ability to discern permanent binding and transient interaction allows us to study ion specific interaction kinetics. Saturation free detection of single ions in the transient interaction regime enables us to statistically confirm that the sensor signals originate from single ions. Furthermore, we reveal how the ion nanorod interactions evolve with respect to the medium's ionic strength as mercury ions amalgamate with gold and zinc ions eventually turn into probes of highly localized surface potentials. Therefore this study might lay the cornerstone for the optical investigation of atomic processes at nanoparticle surfaces and in liquid medium.

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Photothermal Microscopy: Imaging the Optical Absorption of Single Nanoparticles and Single Molecules

et al. 2020

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The photothermal (PT) signal arises from slight changes of the index of refraction in a sample due to absorption of a heating light beam. Refractive index changes are measured with a second probing beam, usually of a different color. In the past two decades, this all-optical detection method has reached the sensitivity of single particles and single molecules, which gave birth to original applications in material science and biology. PT microscopy enables shot-noise-limited detection of individual nanoabsorbers among strong scatterers and circumvents many of the limitations of fluorescence-based detection. This review describes the theoretical basis of PT microscopy, the methodological developments that improved its sensitivity toward single-nanoparticle and single-molecule imaging, and a vast number of applications to single-nanoparticle imaging and tracking in material science and in cellular biology.

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Towards next-generation label-free biosensors: recent advances in whispering gallery mode sensors

2017

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Whispering gallery mode biosensors have been widely exploited over the past decade to study molecular interactions by virtue of their high sensitivity and applicability in real-time kinetic analysis without the requirement to label. There have been immense research efforts made for advancing the instrumentation as well as the design of detection assays, with the common goal of progressing towards real-world sensing applications. We therefore review a set of recent developments made in this field and discuss the requirements that whispering gallery mode label-free sensors need to fulfill for making a real world impact outside of the laboratory. These requirements are directly related to the challenges that these sensors face, and the methods proposed to overcome them are discussed. Moving forward, we provide the future prospects and the potential impact of this technology.

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Martin D. Baaske

Single-molecule nucleic acid interactions monitored on a label-free microcavity biosensor platform

Optical observation of single atomic ions interacting with plasmonic nanorods in aqueous solution

Photothermal Microscopy: Imaging the Optical Absorption of Single Nanoparticles and Single Molecules

Towards next-generation label-free biosensors: recent advances in whispering gallery mode sensors

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