PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25880894-5	2016	For instance, soft- and reactive landing have been applied to study the surface chemistry of ions isolated in the gas-phase, prepare arrays of proteins for high-throughput biological screening, produce novel carbon-based and polymer materials, enrich the secondary structure of peptides and the chirality of organic molecules, immobilize electrochemically-active proteins and organometallics on electrodes, create thin films of complex molecules, and immobilize catalytically active organometallics as well as ligated metal clusters.	Metals	382-387	POC1 centriolar protein A	Homo sapiens	14-18	
26925009-6	2016	The results showed that the soft passages of heavy metal songs and soft sea sounds expressed lower arousal and induced significantly higher HF-HRVs than the loud passages of heavy metal songs.	Metals	51-56	POC1 centriolar protein A	Homo sapiens	28-32	
34985923-0	2022	Capturing Atom-Specific Electronic Structural Dynamics of Transition-Metal Complexes with Ultrafast Soft X-Ray Spectroscopy.	Metals	69-74	POC1 centriolar protein A	Homo sapiens	100-104	
34361752-5	2021	The (16)andS4 macrocycle has been reported to chelate a number of relevant soft metal ions.	Metals	80-85	POC1 centriolar protein A	Homo sapiens	75-79	
35353948-1	2022	Soft, elastically deformable composites with liquid metal (LM) droplets can enable new generations of soft electronics, robotics, and reconfigurable structures.	Metals	52-57	POC1 centriolar protein A	Homo sapiens	0-4	
35353948-1	2022	Soft, elastically deformable composites with liquid metal (LM) droplets can enable new generations of soft electronics, robotics, and reconfigurable structures.	Metals	52-57	POC1 centriolar protein A	Homo sapiens	102-106	
32390411-9	2020	Controlled phosphorescence, combined with the electrical conductivity of the liquid metal and the overall soft matrix, enables potential applications as an electronic skin for soft robotics, stretchable electronics, and prosthesis.	Metals	84-89	POC1 centriolar protein A	Homo sapiens	176-180	
33427274-0	2021	Soft actuators by electrochemical oxidation of liquid metal surfaces.	Metals	54-59	POC1 centriolar protein A	Homo sapiens	0-4	
33427274-3	2021	We demonstrate that a liquid metal (LM) meniscus wetted between two copper pads can function as an electrochemical soft actuator whose force and shape are controllable by tuning the LM surface energy.	Metals	29-34	POC1 centriolar protein A	Homo sapiens	115-119