Material made of fluorescent nanosensors may boost neural discoveries Material made of fluorescent nanosensors may boost neural discoveries By measuring the release of dopamine and other neurotransmitters, a composite material can help provide a better understanding of chemical neurotransmission
Fluorescent-Based Neurotransmitter Sensors: Present and Future . . . This review has discussed the significance of fluorescent biosensors in the detection of medically important NTs and explores the array of nanomaterials and biological materials available for designing high-demand fluorescent-based nano biosensors
Optical Probes for Neurobiological Sensing and Imaging We start with a discussion of currently available molecular probes, highlight recent advances in genetically modified fluorescent probes for ions and small molecules, and end with the latest research in nanosensors for biological imaging
Nanomaterial-enhanced fluorescence sensors for dopamine . . . This review examines the fundamental nanomaterials and mechanisms utilized in fluorescent-based DA biosensors, with an emphasis on fluorescence resonance energy transfer (FRET) and photo-induced electron transfer (PET) mechanisms
Imaging of Monoamine Neurotransmitters with Fluorescent Nanoscale . . . We focus on the latest advances in near infrared fluorescent carbon nanotube-based sensors and engineered fluorescent proteins for monoamine imaging, which provide high spatial and temporal resolution suitable for examining the release of monoamines from cells in cellular networks
High Sensitivity Near‐Infrared Imaging of Fluorescent Nanosensors . . . High sensitivity NIR imaging of molecular sensors NIR fluorescent monochiral (6,4)-SWCNTs separated via ATPE from standard SWCNT samples with multiple chiralities are used to visualize biomolecules such as the neurotransmitter dopamine