PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	130-135	NPHS1 adhesion molecule, nephrin	Homo sapiens	51-54	
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	130-135	NPHS1 adhesion molecule, nephrin	Homo sapiens	210-219	
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	130-135	NPHS1 adhesion molecule, nephrin	Homo sapiens	210-213	
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	214-219	NPHS1 adhesion molecule, nephrin	Homo sapiens	51-54	
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	214-219	NPHS1 adhesion molecule, nephrin	Homo sapiens	210-213	
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	214-219	NPHS1 adhesion molecule, nephrin	Homo sapiens	51-54	
31898463-4	2020	Deriving from the mechanical frame effect acted by CNF layers in, which is capable of preventing the nano-sized "zigzag" crack in MXene layers from growing to the whole film, the alternating multilayered film (CNF@MXene) revealed the improved mechanical strength (112.5 MPa) and toughness (2.7 MJ m-3) compared to both freestanding MXene film and homogeneous CNF/MXene film.	mxene	214-219	NPHS1 adhesion molecule, nephrin	Homo sapiens	210-213	
31898463-5	2020	Meanwhile, the directly contacted MXene layers resulted in that the electrical conductivity increased from 2 S m-1 (homogeneous CNF/MXene film) to 621-82 S m-1 (CNF@MXene films).	mxene	34-39	NPHS1 adhesion molecule, nephrin	Homo sapiens	128-131	
31898463-5	2020	Meanwhile, the directly contacted MXene layers resulted in that the electrical conductivity increased from 2 S m-1 (homogeneous CNF/MXene film) to 621-82 S m-1 (CNF@MXene films).	mxene	34-39	NPHS1 adhesion molecule, nephrin	Homo sapiens	161-165