Sensortechnologien durch neuartige Materialien und Moleküle

Swager, Timothy M.

doi:10.1002/ange.201711611

Cited by 14 publications

(2 citation statements)

References 42 publications

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“…[1][2][3] During the last decade,the field of biosensors based on nanomaterials has seen vast improvements. [4,5] These materials include carbon-based nanomaterials such as graphene,g raphene quantum dots,a nd carbon nanotubes (CNTs). [4,[6][7][8] Here,s ingle-walled carbon nanotubes (SWCNTs) are of particular interest.…”

Section: Introductionmentioning

confidence: 99%

“…[4,5] These materials include carbon-based nanomaterials such as graphene,g raphene quantum dots,a nd carbon nanotubes (CNTs). [4,[6][7][8] Here,s ingle-walled carbon nanotubes (SWCNTs) are of particular interest. Their optoelectronic properties are sensitive to the surrounding environment, which makes them suitable for highly selective biosensing.…”

Section: Introductionmentioning

confidence: 99%

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Biosensing with Fluorescent Carbon Nanotubes

et al. 2022

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Biosensors are powerful tools for modern basic research and biomedical diagnostics. Their development requires substantial input from the chemical sciences. Sensors or probes with an optical readout, such as fluorescence, offer rapid, minimally invasive sensing of analytes with high spatial and temporal resolution. The near‐infrared (NIR) region is beneficial because of the reduced background and scattering of biological samples (tissue transparency window) in this range. In this context, single‐walled carbon nanotubes (SWCNTs) have emerged as versatile NIR fluorescent building blocks for biosensors. Here, we provide an overview of advances in SWCNT‐based NIR fluorescent molecular sensors. We focus on chemical design strategies for diverse analytes and summarize insights into the photophysics and molecular recognition. Furthermore, different application areas are discussed—from chemical imaging of cellular systems and diagnostics to in vivo applications and perspectives for the future.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Biosensing with Fluorescent Carbon Nanotubes

et al. 2022

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Diamondoid Nanostructures as sp³‐Carbon‐Based Gas Sensors

et al. 2019

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Diamondoids, sp3‐hybridized nanometer‐sized diamond‐like hydrocarbons (nanodiamonds), difunctionalized with hydroxy and primary phosphine oxide groups, enable the assembly of the first sp3‐C‐based chemical sensors by vapor deposition. Both pristine nanodiamonds and palladium nanolayered composites can be used to detect toxic NO2 and NH3 gases. This carbon‐based gas sensor technology allows reversible NO2 detection down to 50 ppb and NH3 detection at 25–100 ppm concentration with fast response and recovery processes at 100 °C. Reversible gas adsorption and detection is compatible with 50 % humidity conditions. Semiconducting p‐type sensing properties are achieved from devices based on primary phosphine–diamantanol, in which high specific area (ca. 140 m2 g−1) and channel nanoporosity derive from H‐bonding.

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Nanoarchitektonik als ein Ansatz zur Erzeugung bioähnlicher hierarchischer Organisate

et al. 2020

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Die Eingliederung von Nichtgleichgewichtsprozessen in die Abfolge von Selbstassemblierungsverfahren wäre ein effektives Mittel zur Etablierung bioähnlicher hochfunktionalisierter hierarchischer Assemblierungen. Als eine neue Methode jenseits der Selbstassemblierung wurde die Nanoarchitektonik eingeführt, deren Ziel die Herstellung funktioneller Materialsysteme aus nanoskopischen Einheiten durch die methodische Zusammenführung der Nanotechnologie mit anderen wissenschaftlichen Disziplinen einschließlich der organischen Synthese, der supramolekularen Chemie, der Mikrofabrikation und von Bioprozessen ist. Die Nutzung von Nichtgleichgewichtsfaktoren in konventionellen Selbstassemblierungsprozessen wird auf der Grundlage von Beispielen zur gesteuerten Assemblierung, der Langmuir‐Blodgett‐Technologie und der schichtweisen Assemblierung diskutiert. Insbesondere werden Beispiele zur Herstellung hierarchischer funktioneller Strukturen mithilfe bioaktiver Komponenten wie Proteinen oder durch die Kombination von Biokomponenten mit zweidimensionalen Nanomaterialien beschrieben.

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Sensortechnologien durch neuartige Materialien und Moleküle

Cited by 14 publications

References 42 publications

Biosensing with Fluorescent Carbon Nanotubes

Biosensing with Fluorescent Carbon Nanotubes

Diamondoid Nanostructures as sp³‐Carbon‐Based Gas Sensors

Nanoarchitektonik als ein Ansatz zur Erzeugung bioähnlicher hierarchischer Organisate

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Sensortechnologien durch neuartige Materialien und Moleküle

Cited by 14 publications

References 42 publications

Biosensing with Fluorescent Carbon Nanotubes

Biosensing with Fluorescent Carbon Nanotubes

Diamondoid Nanostructures as sp3‐Carbon‐Based Gas Sensors

Nanoarchitektonik als ein Ansatz zur Erzeugung bioähnlicher hierarchischer Organisate

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Product

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Diamondoid Nanostructures as sp³‐Carbon‐Based Gas Sensors