PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
35107471-7	2022	The minimum inhibitory concentration (MIC) and the minimal bactericidal concentration (MBC) of onion carbon dots against Pseudomonas fragi were 2 mg mL-1 and 4 mg mL-1, respectively.	Carbon	101-107	L1 cell adhesion molecule	Mus musculus	149-159	
22324412-11	2011	Wheat straw was the best carbon source for laccase synthesis in G. lucidum (55.75 U L-1).	Carbon	25-31	L1 cell adhesion molecule	Mus musculus	84-87	
9042089-12	1997	NT and C, respectively (6.7 vs. 4.7 vs. 5.3 microU mL-1).	Carbon	7-8	L1 cell adhesion molecule	Mus musculus	51-55	
35107471-7	2022	The minimum inhibitory concentration (MIC) and the minimal bactericidal concentration (MBC) of onion carbon dots against Pseudomonas fragi were 2 mg mL-1 and 4 mg mL-1, respectively.	Carbon	101-107	L1 cell adhesion molecule	Mus musculus	163-167	
34030414-8	2021	When applied in removal of CIP at the low concentration of 2.0 microg mL-1, a high removal efficiency of 96.60% was still obtained, which was superior to commercial activated carbon (28.78%).	Carbon	175-181	L1 cell adhesion molecule	Mus musculus	70-74	
3935306-5	1985	When reovirus was presented to these bacteria as a sole source of carbon, some growth (determined spectrophotometrically) of B. subtilis and S. marcescens occurred with reovirus concentrations of 3.1 X 10(6) and 8.2 X 10(6) mean tissue culture infective dose-fifty X mL-1, respectively.	Carbon	66-72	L1 cell adhesion molecule	Mus musculus	267-271	
32138914-2	2020	The prepared dual-emission carbon dots can be used for ratiometric detection of Fe3+ ions in the range from 0 to 50 mumol L-1 with 0.8 mumol L-1 detection limit based on the fluorescence quenching at 570 nm.	Carbon	27-33	L1 cell adhesion molecule	Mus musculus	122-125	
33524653-3	2021	Well-characterized Anti-AbsCA19-9/CS-MWCNT-Fe3O4 immune-electrode fabricated on glassy carbon electrode (GCE) successfully detect CA 19-9 and exhibited a high sensitivity as (2.55 microA pg-1 cm-1), a detection limit of 0.163 pg mL-1, detection range from 1.0 pg mL-1 to 100 ng mL-1.	Carbon	87-93	L1 cell adhesion molecule	Mus musculus	229-233	
33524653-3	2021	Well-characterized Anti-AbsCA19-9/CS-MWCNT-Fe3O4 immune-electrode fabricated on glassy carbon electrode (GCE) successfully detect CA 19-9 and exhibited a high sensitivity as (2.55 microA pg-1 cm-1), a detection limit of 0.163 pg mL-1, detection range from 1.0 pg mL-1 to 100 ng mL-1.	Carbon	87-93	L1 cell adhesion molecule	Mus musculus	263-267	
33524653-3	2021	Well-characterized Anti-AbsCA19-9/CS-MWCNT-Fe3O4 immune-electrode fabricated on glassy carbon electrode (GCE) successfully detect CA 19-9 and exhibited a high sensitivity as (2.55 microA pg-1 cm-1), a detection limit of 0.163 pg mL-1, detection range from 1.0 pg mL-1 to 100 ng mL-1.	Carbon	87-93	L1 cell adhesion molecule	Mus musculus	263-267	
33909189-6	2022	The results reveal that the sorption capacity of the carbonaceous adsorbents at a ratio 1:20 (solid to liquid phases) is orders of magnitude higher (13 368 ng mL-1 of activated carbon and 3 578 ng mL-1 of biochar) compared to the soil (57.8 ng mL-1).	Carbon	53-59	L1 cell adhesion molecule	Mus musculus	159-163	
33909189-6	2022	The results reveal that the sorption capacity of the carbonaceous adsorbents at a ratio 1:20 (solid to liquid phases) is orders of magnitude higher (13 368 ng mL-1 of activated carbon and 3 578 ng mL-1 of biochar) compared to the soil (57.8 ng mL-1).	Carbon	53-59	L1 cell adhesion molecule	Mus musculus	197-201	
33909189-6	2022	The results reveal that the sorption capacity of the carbonaceous adsorbents at a ratio 1:20 (solid to liquid phases) is orders of magnitude higher (13 368 ng mL-1 of activated carbon and 3 578 ng mL-1 of biochar) compared to the soil (57.8 ng mL-1).	Carbon	53-59	L1 cell adhesion molecule	Mus musculus	197-201	
32498890-5	2020	Under the optimum conditions, there was a good linear relationship between the degree of fluorescence recovery of carbon dots and DNA concentration in range of 0.0150-9.60 mug mL-1.	Carbon	114-120	L1 cell adhesion molecule	Mus musculus	176-180	
32138914-2	2020	The prepared dual-emission carbon dots can be used for ratiometric detection of Fe3+ ions in the range from 0 to 50 mumol L-1 with 0.8 mumol L-1 detection limit based on the fluorescence quenching at 570 nm.	Carbon	27-33	L1 cell adhesion molecule	Mus musculus	141-144	
32138914-4	2020	We further used the carbon dots-Fe3+ ions-pyrophosphate mixed system for ratiometric detection of acid phosphatase in the range from 0.08 to 6.75 mug mL-1 with 0.01 mug mL-1 detection limit.	Carbon	20-26	L1 cell adhesion molecule	Mus musculus	150-154	
32138914-4	2020	We further used the carbon dots-Fe3+ ions-pyrophosphate mixed system for ratiometric detection of acid phosphatase in the range from 0.08 to 6.75 mug mL-1 with 0.01 mug mL-1 detection limit.	Carbon	20-26	L1 cell adhesion molecule	Mus musculus	169-173	
31310099-5	2019	The incubation of the probes with the sample solutions containing the target CTCs can lead to the efficient separation of the CTCs and result in the generation of two distinct voltammetric peaks on a screen-printed carbon electrode, whose potentials and current intensities, respectively, reflect the identity and number of CTCs for the multiplexed detection of the Ramos and CCRF-CEM cells with detection limits down to 4 and 3 cells mL-1.	Carbon	215-221	L1 cell adhesion molecule	Mus musculus	435-439	
31456042-14	2019	Graphical abstract Schematic representation of the preparation of carbon sheets similar to graphene oxide from onion sheaths after pyrolysis at 800  C. The prepared carbon sheet-MnFe2O4 composite shows excellent arsenic sorption and preconcentration down to the pg mL-1 concentration.	Carbon	66-72	L1 cell adhesion molecule	Mus musculus	265-269	
31456042-14	2019	Graphical abstract Schematic representation of the preparation of carbon sheets similar to graphene oxide from onion sheaths after pyrolysis at 800  C. The prepared carbon sheet-MnFe2O4 composite shows excellent arsenic sorption and preconcentration down to the pg mL-1 concentration.	Carbon	165-171	L1 cell adhesion molecule	Mus musculus	265-269	
30609543-2	2019	In this work, a simple and reproducible SERS substrate combining the properties of multi-walled carbon nanotubes (MWCNTs) and gold nanoparticles (AuNPs), is proposed for the determination and quantification of sulfapyridine in milk samples with a concentration range of 10-100 ng mL-1.	Carbon	96-102	L1 cell adhesion molecule	Mus musculus	280-284	
32627429-4	2019	Single-walled carbon nanotubes are introduced to neural stem cells at different stages of differentiation at concentrations as low as 5 ng mL-1 .	Carbon	14-20	L1 cell adhesion molecule	Mus musculus	139-143	
31458090-5	2018	Noncovalent functionalization of carbon nanotubes with the macrocycle-containing conjugated polymer significantly enhanced nanotube solubility, resulting in dark and concentrated nanotube dispersions (600 mug mL-1), as evidenced by UV-vis-NIR spectroscopy and thermogravimetric analysis.	Carbon	33-39	L1 cell adhesion molecule	Mus musculus	209-213	
30040045-6	2018	Expression of Mel-CAM and L1-CAM was upregulated after low-dose photon exposure, but decreased with dose, especially after carbon-ion treatment.	Carbon	123-129	L1 cell adhesion molecule	Mus musculus	26-32	
28620663-1	2017	Long single-walled carbon nanotubes, with lengths >10 mum, can be spontaneously dissolved by stirring in a sodium naphthalide N,N-dimethylacetamide solution, yielding solutions of individualised nanotubide ions at concentrations up to 0.74 mg mL-1.	Carbon	19-25	L1 cell adhesion molecule	Mus musculus	246-250	
24766786-4	2014	Since as little as 50 mug mL-1 of carbon nanotubes increase the tomato production by about 200%, they may be exploited to enhance the agriculture production in future.	Carbon	34-40	L1 cell adhesion molecule	Mus musculus	26-30