Publications by authors named "C H Sengupta"
Two-dimensional infrared (2D IR) spectroscopy is a powerful technique for measuring molecular heterogeneity and dynamics with a high spatiotemporal resolution. The methods can be applied to characterize specific residues of proteins by incorporating frequency-resolved vibrational labels. However, the time scale of dynamics that 2D IR spectroscopy can measure is limited by the vibrational label's excited-state lifetime due to the decay of 2D IR absorption bands.
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- * The SPARK trial was a phase II study involving 48 patients that utilized KIM technology to monitor real-time tumor movements and evaluate the accuracy of cancer targeting during radiotherapy.
- * The publicly available dataset includes a variety of imaging and treatment data, stored at the University of Sydney eScholarship Repository, which can be used for further research and analysis in the field of radiotherapy.
Article Synopsis
- This observational study explores the use of x-ray images of chemoembolisation deposits for real-time image-guided radiation therapy in patients with hepatocellular carcinoma.
- The study involves 50 patients who have undergone or will undergo stereotactic ablative radiation therapy, analyzing their imaging data and developing a deep learning method for motion tracking.
- The goal is to demonstrate that the deep learning software can accurately track the placement of chemoembolisation materials, improving targeting accuracy without needing invasive procedures for fiducial markers.
Earthworms are a highly abundant species in nature, with nearly 7000 different species being discovered. Despite the similarities in morphology among earthworm species, their regeneration capabilities vary based on the clitellum. The clitellum plays a crucial role in the clitellum-dependent worms, as it is involved in the processes of regeneration and reproduction in earthworms.
View Article and Find Full Text PDFTriboelectric nanogenerators (TENG) are promising alternatives for clean energy harvesting. However, the material utilization in the development of TENG relies majorly on polymers derived from non-renewable resources. Therefore, minimizing the carbon footprint associated with such TENG development demands a shift toward usage of sustainable materials.
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