PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32719367-5	2020	Moreover, the specific Raman mode of the PbS QDs, embedded in the spectrum, is enhanced by combination with graphene, which can be interpreted by SERS as relevant to the photoinduced charge transfer between the Pbs QDs and graphene.	Graphite	108-116	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	146-150	
32719367-5	2020	Moreover, the specific Raman mode of the PbS QDs, embedded in the spectrum, is enhanced by combination with graphene, which can be interpreted by SERS as relevant to the photoinduced charge transfer between the Pbs QDs and graphene.	Graphite	223-231	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	146-150	
30529585-8	2019	The GO-wrapped NHMs exhibited a further better SERS performance because the heterostructure of GO-NHMs could be potentially useful for SERS-based immunoassay due to the much easier charge transfer between graphene and the metal ions and molecules so the homogeneity of the SERS probe was improved simultaneously (chemical enhancement) by GO-NHMs.	Graphite	205-213	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	47-51	
31557442-3	2019	The electrochemical in situ SERS spectra prove nonzero wavevector excitation through the observation of normally forbidden Raman bands in graphene.	Graphite	138-146	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	28-32	
30663738-1	2019	A nanodendritic gold/graphene-based biosensor that can perform fluorescence, SERS and electrochemical tri-modal miRNA detection in a single microdroplet has been developed.	Graphite	21-29	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	77-81	
32139732-0	2020	(Cu2O-Au) - Graphene - Au layered structures as efficient near Infra - Red SERS substrates.	Graphite	12-20	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	75-79	
32139732-2	2020	In this paper, we propose a novel multi-layered SERS substrate- (Cu2O - Au) - Graphene - Au - for efficient NIR SERS applications.	Graphite	78-86	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	48-52	
32139732-2	2020	In this paper, we propose a novel multi-layered SERS substrate- (Cu2O - Au) - Graphene - Au - for efficient NIR SERS applications.	Graphite	78-86	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	112-116	
30529585-8	2019	The GO-wrapped NHMs exhibited a further better SERS performance because the heterostructure of GO-NHMs could be potentially useful for SERS-based immunoassay due to the much easier charge transfer between graphene and the metal ions and molecules so the homogeneity of the SERS probe was improved simultaneously (chemical enhancement) by GO-NHMs.	Graphite	205-213	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	135-139	
30529585-8	2019	The GO-wrapped NHMs exhibited a further better SERS performance because the heterostructure of GO-NHMs could be potentially useful for SERS-based immunoassay due to the much easier charge transfer between graphene and the metal ions and molecules so the homogeneity of the SERS probe was improved simultaneously (chemical enhancement) by GO-NHMs.	Graphite	205-213	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	135-139	
29070864-0	2017	Plasmonic nanohole array for enhancing the SERS signal of a single layer of graphene in water.	Graphite	76-84	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	43-47	
29511748-1	2018	In this work, an electro-optical device based on a graphene-Ag nanoparticle hybrid is fabricated as the substrate of graphene mediated surface enhanced Raman scattering (G-SERS) manipulated by the gate and bias voltages.	Graphite	51-59	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	172-176	
29511748-1	2018	In this work, an electro-optical device based on a graphene-Ag nanoparticle hybrid is fabricated as the substrate of graphene mediated surface enhanced Raman scattering (G-SERS) manipulated by the gate and bias voltages.	Graphite	117-125	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	172-176	
29070864-1	2017	We numerically design and experimentally test a SERS-active substrate for enhancing the SERS signal of a single layer of graphene (SLG) in water.	Graphite	121-129	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	48-52	
29070864-1	2017	We numerically design and experimentally test a SERS-active substrate for enhancing the SERS signal of a single layer of graphene (SLG) in water.	Graphite	121-129	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	88-92	
29070864-4	2017	We provide a detailed study of the light-graphene interactions by investigating the optical absorption in the SLG, the density of optical states at the location of the SLG, and the extraction efficiency of the SERS signal of the SLG.	Graphite	41-49	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	210-214	
31457712-1	2017	When graphene is used as SERS substrates, it contributes to the chemical mechanism (CM) of enhancement of Raman signal, owing to which the detection limit is very low (lower than mM content of probe molecules).	Graphite	5-13	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	25-29	
28722075-0	2017	A new route for the synthesis of a Ag nanopore-inlay-nanogap structure: integrated Ag-core@graphene-shell@Ag-jacket nanoparticles for high-efficiency SERS detection.	Graphite	91-99	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	150-154	
28722075-2	2017	The as-synthesized integrated Ag-core@graphene-shell@Ag-jacket nanoparticles (AgC@G@AgJ-NPs) presents "chrysanthemum" shapes that contain abundant sub-10 nm size intraparticle nanopores/nanogaps, which can generate huge enhanced electromagnetic fields to support SERS activity, resulting in an average EF > 107 due to a high-density of intraparticle and interparticle "hot spots".	Graphite	38-46	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	263-267	
31457712-3	2017	Therefore, in this work, we have investigated the possibility of increasing the SERS activity of graphene by improving the interaction between the probe molecule and the graphene substrate by establishing exclusively strong covalent bonding between them.	Graphite	97-105	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	80-84	
31457712-3	2017	Therefore, in this work, we have investigated the possibility of increasing the SERS activity of graphene by improving the interaction between the probe molecule and the graphene substrate by establishing exclusively strong covalent bonding between them.	Graphite	170-178	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	80-84	
28397912-0	2017	A new heterostructured SERS substrate: free-standing silicon nanowires decorated with graphene-encapsulated gold nanoparticles.	Graphite	86-94	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	23-27	
28397912-1	2017	Heterostructures of one-dimensional nanowire supported graphene/plasmonic nanoparticles are promising for future SERS-based chemical sensors.	Graphite	55-63	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	113-117	
28397912-2	2017	In this paper, we report a novel heterostructured SERS substrate composed of free-standing Si nanowires and surface-decorating Au/graphene nanoparticles.	Graphite	130-138	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	50-54	
25278085-2	2014	The composite films have shown graphene-mediated surface-enhanced Raman scattering (G-SERS).	Graphite	31-39	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	86-90	
27118247-0	2016	A hybrid system with highly enhanced graphene SERS for rapid and tag-free tumor cells detection.	Graphite	37-45	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	46-50	
27118247-1	2016	By dint of unique physical/chemical properties and bio-compatibility, graphene can work as a building block for a SERS substrate and open up a unique platform for tumor cells detection with high sensitivity.	Graphite	70-78	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	114-118	
27118247-2	2016	Herein we demonstrate a facile system with highly enhanced surface enhanced Raman spectroscopy of graphene (G-SERS).	Graphite	98-106	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	110-114	
28261740-3	2017	SERS measurements reveal their high sensitivity and stability due to the synergistic effect of Cu and graphene double nanocaps.	Graphite	102-110	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	0-4	
23922275-2	2013	The bio-compatible graphene-based SERS platform boosts a high density of hot spots with local SERS enhancement factor over 10(10) .	Graphite	19-27	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	34-38	
23922275-2	2013	The bio-compatible graphene-based SERS platform boosts a high density of hot spots with local SERS enhancement factor over 10(10) .	Graphite	19-27	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	94-98	
23922275-3	2013	We demonstrate that graphene can play a key role in quantitative study of SERS mechanisms, and can also serve as a promising building block in SERS active structures especially for biosensor applications.	Graphite	20-28	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	74-78	
23922275-3	2013	We demonstrate that graphene can play a key role in quantitative study of SERS mechanisms, and can also serve as a promising building block in SERS active structures especially for biosensor applications.	Graphite	20-28	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	143-147	
22436726-4	2012	Thus, in the process of Ag/graphene synthesis, there is no any intervention of surfactant, which ensures that SERS activity sites have not been passivated.	Graphite	27-35	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	110-114	
21619124-0	1996	Implementation of Electrochemically Synthesized Silver Nanocrystallites for the Preferential SERS Enhancement of Defect Modes on Thermally Etched Graphite Surfaces.	Graphite	146-154	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	93-97	
21619124-7	1996	For for thermally etched HOPG surfaces at either silver coverage, SERS-augmented Raman spectra were obtained in which defect modes of the graphite surface [Formula: see text] derived from "finite" graphite domains at the surface [Formula: see text] were strongly and preferentially enhanced.	Graphite	138-146	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	66-70	
21619124-7	1996	For for thermally etched HOPG surfaces at either silver coverage, SERS-augmented Raman spectra were obtained in which defect modes of the graphite surface [Formula: see text] derived from "finite" graphite domains at the surface [Formula: see text] were strongly and preferentially enhanced.	Graphite	197-205	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	66-70	
34215109-1	2021	Three-dimensional (3D) SERS substrate with the denser "hotspots" is synthesized by the constriction of PDMS film decorated with sandwiched graphene@AgNPs@graphene (G@AgNPs@G) nanostructure.	Graphite	139-147	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	23-27	
34215109-1	2021	Three-dimensional (3D) SERS substrate with the denser "hotspots" is synthesized by the constriction of PDMS film decorated with sandwiched graphene@AgNPs@graphene (G@AgNPs@G) nanostructure.	Graphite	154-162	seryl-tRNA synthetase 2, mitochondrial	Homo sapiens	23-27