PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 32262471-7 2015 The inherent cytotoxicity of CDs was evaluated using HepG2 cell, and the cell viabilities were estimated to be greater than 90% upon addition of the CDs over a wide concentration range of 0-1000 mug mL-1. cds 29-32 L1 cell adhesion molecule Mus musculus 199-203 35239060-1 2022 An ultra-sensitive glyphosate nanosensor, based on carbon dots (CDs), was successfully developed with excellent long-wavelength emission (530 nm), a high quantum yield (41.3%), and an impressive detection limit (0.8 ng mL-1). cds 64-67 L1 cell adhesion molecule Mus musculus 219-223 32240732-7 2020 The CDs at 500 mg mL-1 concentration had antibacterial activity towards both bacteria. cds 4-7 L1 cell adhesion molecule Mus musculus 18-22 30952013-4 2019 As compared with the pristine ZrHf-MOF, the CDs@ZrHf-MOF-based electrochemical aptasensor displays better sensing performances toward both HER-2 and MCF-7 cells, giving an extremely low detection limit of 19 fg mL-1 (HER2 concentration range: 0.001-10 ng mL-1) and 23 cell mL-1 (cell concentration range: 1 x 102~1 x 105 cell mL-1), with good selectivity, stability, reproducibility, and acceptable applicability. cds 44-47 L1 cell adhesion molecule Mus musculus 211-215 30952013-4 2019 As compared with the pristine ZrHf-MOF, the CDs@ZrHf-MOF-based electrochemical aptasensor displays better sensing performances toward both HER-2 and MCF-7 cells, giving an extremely low detection limit of 19 fg mL-1 (HER2 concentration range: 0.001-10 ng mL-1) and 23 cell mL-1 (cell concentration range: 1 x 102~1 x 105 cell mL-1), with good selectivity, stability, reproducibility, and acceptable applicability. cds 44-47 L1 cell adhesion molecule Mus musculus 255-259 30952013-4 2019 As compared with the pristine ZrHf-MOF, the CDs@ZrHf-MOF-based electrochemical aptasensor displays better sensing performances toward both HER-2 and MCF-7 cells, giving an extremely low detection limit of 19 fg mL-1 (HER2 concentration range: 0.001-10 ng mL-1) and 23 cell mL-1 (cell concentration range: 1 x 102~1 x 105 cell mL-1), with good selectivity, stability, reproducibility, and acceptable applicability. cds 44-47 L1 cell adhesion molecule Mus musculus 255-259 30952013-4 2019 As compared with the pristine ZrHf-MOF, the CDs@ZrHf-MOF-based electrochemical aptasensor displays better sensing performances toward both HER-2 and MCF-7 cells, giving an extremely low detection limit of 19 fg mL-1 (HER2 concentration range: 0.001-10 ng mL-1) and 23 cell mL-1 (cell concentration range: 1 x 102~1 x 105 cell mL-1), with good selectivity, stability, reproducibility, and acceptable applicability. cds 44-47 L1 cell adhesion molecule Mus musculus 255-259 34504276-4 2021 The analytical applicability of CDs were evaluated for detection of both the dyes with a good linear relationship between the concentration range of 0.0 to 3.0 microg mL-1 and having detection limit 0.45 and 0.47 microg mL-1 for allura red and ponceau 4R dyes respectively. cds 32-35 L1 cell adhesion molecule Mus musculus 167-171 34504276-4 2021 The analytical applicability of CDs were evaluated for detection of both the dyes with a good linear relationship between the concentration range of 0.0 to 3.0 microg mL-1 and having detection limit 0.45 and 0.47 microg mL-1 for allura red and ponceau 4R dyes respectively. cds 32-35 L1 cell adhesion molecule Mus musculus 220-224 33609594-6 2021 Compared to direct hybridization of complementary DNA on the surface of CDs and AuNPs, our sensing strategy has enhanced detection limit (10 cfu mL-1) and improved linear range (10 to 106 cfu mL-1) for S. aureus. cds 72-75 L1 cell adhesion molecule Mus musculus 145-149 33609594-6 2021 Compared to direct hybridization of complementary DNA on the surface of CDs and AuNPs, our sensing strategy has enhanced detection limit (10 cfu mL-1) and improved linear range (10 to 106 cfu mL-1) for S. aureus. cds 72-75 L1 cell adhesion molecule Mus musculus 192-196 30989266-10 2019 The limit of detection and linear range for determination of IMI with CDs/MB were obtained as 0.2 and 0.5-200.0 ng mL-1, respectively. cds 70-73 L1 cell adhesion molecule Mus musculus 115-119 30478990-4 2019 Compared with dilute aqueous of CDs (2.5 mg mL-1 ), the emission of solid CDs shows an obvious red-shift of 50 nm. cds 32-35 L1 cell adhesion molecule Mus musculus 44-48 30478990-4 2019 Compared with dilute aqueous of CDs (2.5 mg mL-1 ), the emission of solid CDs shows an obvious red-shift of 50 nm. cds 74-77 L1 cell adhesion molecule Mus musculus 44-48 29946587-5 2018 The elongation of mung bean sprouts presented an increasing trend with the treatment of chiral CDs of increasing concentration (below 500 mug mL-1). cds 95-98 L1 cell adhesion molecule Mus musculus 142-146 29594391-9 2018 When using the aptamer-CDs, the dynamic ranges extend from 5 to 200 ng mL-1 and from 3 to 250 ng mL-1, respectively. cds 23-26 L1 cell adhesion molecule Mus musculus 71-101 32262471-7 2015 The inherent cytotoxicity of CDs was evaluated using HepG2 cell, and the cell viabilities were estimated to be greater than 90% upon addition of the CDs over a wide concentration range of 0-1000 mug mL-1. cds 149-152 L1 cell adhesion molecule Mus musculus 199-203