Skip to main content

Research Repository

Advanced Search

Outputs (6)

Widefield, Spatiotemporal Mapping of Spontaneous Activity of Mouse Cultured Neuronal Networks Using Quantum Diamond Sensors (2020)
Journal Article
Price, J. C., Mesquita-Ribeiro, R., Dajas-Bailador, F., & Mather, M. L. (2020). Widefield, Spatiotemporal Mapping of Spontaneous Activity of Mouse Cultured Neuronal Networks Using Quantum Diamond Sensors. Frontiers in Physics, 8, Article 255. https://doi.org/10.3389/fphy.2020.00255

Quantum diamond sensors containing Nitrogen Vacancy (NV) centers were integrated into the culture of spontaneously electrically active cultures of live mouse primary cortical neurons. Two diamond formats were used enabling extracellular studies of ce... Read More about Widefield, Spatiotemporal Mapping of Spontaneous Activity of Mouse Cultured Neuronal Networks Using Quantum Diamond Sensors.

Progress in low-field benchtop NMR spectroscopy in chemical and biochemical analysis (2019)
Journal Article
Grootveld, M., Percival, B., Gibson, M., Osman, Y., Edgar, M., Molinari, M., …Wilson, P. B. (2019). Progress in low-field benchtop NMR spectroscopy in chemical and biochemical analysis. Analytica Chimica Acta, 1067, 11-30. https://doi.org/10.1016/j.aca.2019.02.026

© 2019 Elsevier B.V. The employment of spectroscopically-resolved NMR techniques as analytical probes have previously been both prohibitively expensive and logistically challenging in view of the large sizes of high-field facilities. However, with re... Read More about Progress in low-field benchtop NMR spectroscopy in chemical and biochemical analysis.

Low-field, benchtop NMR spectroscopy as a potential tool for point-of-care diagnostics of metabolic conditions: Validation, protocols and computational models (2018)
Journal Article
Percival, B. C., Grootveld, M., Gibson, M., Osman, Y., Molinari, M., Jafari, F., …Wilson, P. B. (2019). Low-field, benchtop NMR spectroscopy as a potential tool for point-of-care diagnostics of metabolic conditions: Validation, protocols and computational models. High-Throughput, 8(1), Article 2. https://doi.org/10.3390/ht8010002

Novel sensing technologies for liquid biopsies offer promising prospects for the early detection of metabolic conditions through omics techniques. Indeed, high-field nuclear magnetic resonance (NMR) facilities are routinely used for metabolomics inve... Read More about Low-field, benchtop NMR spectroscopy as a potential tool for point-of-care diagnostics of metabolic conditions: Validation, protocols and computational models.

Pulsed ultrasound modulated optical tomography with harmonic lock-in holography detection (2013)
Journal Article
Ruan, H., Mather, M., & Morgan, S. P. (2013). Pulsed ultrasound modulated optical tomography with harmonic lock-in holography detection. Journal of the Optical Society of America A, 30(7), https://doi.org/10.1364/JOSAA.30.001409

A method that uses digital heterodyne holography reconstruction to extract scattered light modulated by a singlecycle ultrasound (US) burst is demonstrated and analyzed. An US burst is used to shift the pulsed laser frequency by a series of discrete... Read More about Pulsed ultrasound modulated optical tomography with harmonic lock-in holography detection.

Cytoplasmic RNA in undifferentiated neural stem cells: a potential label-free Raman spectral marker for assessing the undifferentiated status (2012)
Journal Article
Ghita, A., Pascut, F. C., Mather, M., Sottile, V., & Notingher, I. (2012). Cytoplasmic RNA in undifferentiated neural stem cells: a potential label-free Raman spectral marker for assessing the undifferentiated status. Analytical Chemistry, 84(7), https://doi.org/10.1021/ac202994e

Raman microspectroscopy (rms) was used to identify, image, and quantify potential molecular markers for label-free monitoring the differentiation status of live neural stem cells (NSCs) in vitro. Label-free noninvasive techniques for characterization... Read More about Cytoplasmic RNA in undifferentiated neural stem cells: a potential label-free Raman spectral marker for assessing the undifferentiated status.