PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
24555346-4	2013	And the intensity of near ultraviolet emission from ZnO is stronger than that of the orange-red emission belonging to MEH-PPV.	Zinc Oxide	52-55	epoxide hydrolase 1	Homo sapiens	118-121	
24555346-0	2013	[Tunneling electroluminescence of the ZnO nanorods/MEH-PPV heterojunction devices].	Zinc Oxide	38-41	epoxide hydrolase 1	Homo sapiens	51-54	
24555346-3	2013	When a reverse bias exceeding 17 volts was applied to the ZnO-NRs/ MEH-PPV heterojunction, both emissions of ZnO and MEH-PPV were detected.	Zinc Oxide	58-61	epoxide hydrolase 1	Homo sapiens	67-70	
24555346-3	2013	When a reverse bias exceeding 17 volts was applied to the ZnO-NRs/ MEH-PPV heterojunction, both emissions of ZnO and MEH-PPV were detected.	Zinc Oxide	58-61	epoxide hydrolase 1	Homo sapiens	117-120	
24555346-3	2013	When a reverse bias exceeding 17 volts was applied to the ZnO-NRs/ MEH-PPV heterojunction, both emissions of ZnO and MEH-PPV were detected.	Zinc Oxide	109-112	epoxide hydrolase 1	Homo sapiens	67-70	
26369059-1	2015	This paper reported ternary MEH-PPV-CuInS2/ZnO solar cells, which were fabricated with the mixture of poly(2-methoxy-5-(2-ethylhexyloxy)-1,4-phenylene vinylene) (MEH-PPV) and CuInS2 quantum dots (QDs) as photovoltaic layer and ZnO nanorod arrays (ZnO-NAs) as electron acceptor.	Zinc Oxide	43-46	epoxide hydrolase 1	Homo sapiens	28-31	
15760013-0	2004	[Electroluminescence property of MEH-PPV/ZnO nano-crystal structure].	Zinc Oxide	41-44	epoxide hydrolase 1	Homo sapiens	33-36	
15760013-3	2004	And a new peak at 620 nm was found in the ITO/MEH-PPV/ZnO/Al structure"s electroluminescence spectrum, which should resulted from ZnO layer.	Zinc Oxide	54-57	epoxide hydrolase 1	Homo sapiens	46-49	
15760013-3	2004	And a new peak at 620 nm was found in the ITO/MEH-PPV/ZnO/Al structure"s electroluminescence spectrum, which should resulted from ZnO layer.	Zinc Oxide	130-133	epoxide hydrolase 1	Homo sapiens	46-49	
15760013-4	2004	In addition, the turning-on voltage of the two-layer structure decreased from 9 V of the single layer structure to 4 V. From the I-V curve, the authors concluded that the emitting area was around the interface of MEH-PPV/ZnO and the combination area could shift with changing the voltage.	Zinc Oxide	221-224	epoxide hydrolase 1	Homo sapiens	213-216	
29630810-6	2017	This results show that the MEH-PPV/ZnO thin films gives good performance and is relevant for applications in optoelectronic devices such as a negative differential resistance.	Zinc Oxide	35-38	epoxide hydrolase 1	Homo sapiens	27-30	
16836118-2	2006	The photoluminescence efficiency of double layer sample PEDOT/MEH-PPV was enhanced by doping one-dimensional nanomaterials (TiO2 nanotube and ZnO nanorod) into PEDOT layer.	Zinc Oxide	142-145	epoxide hydrolase 1	Homo sapiens	62-65	
26369059-1	2015	This paper reported ternary MEH-PPV-CuInS2/ZnO solar cells, which were fabricated with the mixture of poly(2-methoxy-5-(2-ethylhexyloxy)-1,4-phenylene vinylene) (MEH-PPV) and CuInS2 quantum dots (QDs) as photovoltaic layer and ZnO nanorod arrays (ZnO-NAs) as electron acceptor.	Zinc Oxide	227-230	epoxide hydrolase 1	Homo sapiens	28-31