id	sid	tid	token	lemma	pos
n296ww74n4g	1	1	base	base	NOUN
n296ww74n4g	1	2	metal	metal	NOUN
n296ww74n4g	1	3	oxides	oxide	NOUN
n296ww74n4g	1	4	are	be	AUX
n296ww74n4g	1	5	of	of	ADP
n296ww74n4g	1	6	interest	interest	NOUN
n296ww74n4g	1	7	as	as	ADP
n296ww74n4g	1	8	low	low	ADJ
n296ww74n4g	1	9	-	-	PUNCT
n296ww74n4g	1	10	cost	cost	NOUN
n296ww74n4g	1	11	replacements	replacement	NOUN
n296ww74n4g	1	12	for	for	ADP
n296ww74n4g	1	13	pt	pt	PROPN
n296ww74n4g	1	14	-	-	PUNCT
n296ww74n4g	1	15	based	base	VERB
n296ww74n4g	1	16	no	no	DET
n296ww74n4g	1	17	oxidation	oxidation	NOUN
n296ww74n4g	1	18	catalysts	catalyst	NOUN
n296ww74n4g	1	19	.	.	PUNCT
n296ww74n4g	2	1	while	while	SCONJ
n296ww74n4g	2	2	the	the	DET
n296ww74n4g	2	3	mechanism	mechanism	NOUN
n296ww74n4g	2	4	of	of	ADP
n296ww74n4g	2	5	pt	pt	PROPN
n296ww74n4g	2	6	-	-	PUNCT
n296ww74n4g	2	7	catalyzed	catalyze	VERB
n296ww74n4g	2	8	no	no	DET
n296ww74n4g	2	9	oxidation	oxidation	NOUN
n296ww74n4g	2	10	is	be	AUX
n296ww74n4g	2	11	fairly	fairly	ADV
n296ww74n4g	2	12	well	well	ADV
n296ww74n4g	2	13	understood	understand	VERB
n296ww74n4g	2	14	,	,	PUNCT
n296ww74n4g	2	15	such	such	ADJ
n296ww74n4g	2	16	is	be	AUX
n296ww74n4g	2	17	not	not	PART
n296ww74n4g	2	18	the	the	DET
n296ww74n4g	2	19	case	case	NOUN
n296ww74n4g	2	20	for	for	ADP
n296ww74n4g	2	21	the	the	DET
n296ww74n4g	2	22	oxides	oxide	NOUN
n296ww74n4g	2	23	.	.	PUNCT
n296ww74n4g	3	1	in	in	ADP
n296ww74n4g	3	2	this	this	DET
n296ww74n4g	3	3	work	work	NOUN
n296ww74n4g	3	4	,	,	PUNCT
n296ww74n4g	3	5	we	we	PRON
n296ww74n4g	3	6	report	report	VERB
n296ww74n4g	3	7	density	density	NOUN
n296ww74n4g	3	8	functional	functional	ADJ
n296ww74n4g	3	9	theory	theory	NOUN
n296ww74n4g	3	10	(	(	PUNCT
n296ww74n4g	3	11	dft	dft	NOUN
n296ww74n4g	3	12	)	)	PUNCT
n296ww74n4g	3	13	and	and	CCONJ
n296ww74n4g	3	14	kinetic	kinetic	ADJ
n296ww74n4g	3	15	modeling	modeling	NOUN
n296ww74n4g	3	16	results	result	NOUN
n296ww74n4g	3	17	for	for	ADP
n296ww74n4g	3	18	one	one	NUM
n296ww74n4g	3	19	class	class	NOUN
n296ww74n4g	3	20	of	of	ADP
n296ww74n4g	3	21	potential	potential	ADJ
n296ww74n4g	3	22	oxide	oxide	NOUN
n296ww74n4g	3	23	catalysts	catalyst	NOUN
n296ww74n4g	3	24	,	,	PUNCT
n296ww74n4g	3	25	the	the	DET
n296ww74n4g	3	26	perovskites	perovskite	NOUN
n296ww74n4g	3	27	.	.	PUNCT
n296ww74n4g	4	1	the	the	DET
n296ww74n4g	4	2	perovskite	perovskite	PROPN
n296ww74n4g	4	3	lacoo3	lacoo3	PROPN
n296ww74n4g	4	4	itself	itself	PRON
n296ww74n4g	4	5	has	have	AUX
n296ww74n4g	4	6	been	be	AUX
n296ww74n4g	4	7	shown	show	VERB
n296ww74n4g	4	8	to	to	PART
n296ww74n4g	4	9	have	have	VERB
n296ww74n4g	4	10	good	good	ADJ
n296ww74n4g	4	11	no	no	DET
n296ww74n4g	4	12	oxidation	oxidation	NOUN
n296ww74n4g	4	13	activity	activity	NOUN
n296ww74n4g	4	14	,	,	PUNCT
n296ww74n4g	4	15	and	and	CCONJ
n296ww74n4g	4	16	sr	sr	PROPN
n296ww74n4g	4	17	substitution	substitution	NOUN
n296ww74n4g	4	18	improves	improve	VERB
n296ww74n4g	4	19	no	no	DET
n296ww74n4g	4	20	oxidation	oxidation	NOUN
n296ww74n4g	4	21	rates	rate	NOUN
n296ww74n4g	4	22	and	and	CCONJ
n296ww74n4g	4	23	reduces	reduce	VERB
n296ww74n4g	4	24	no2	no2	NOUN
n296ww74n4g	4	25	inhibition	inhibition	NOUN
n296ww74n4g	4	26	.	.	PUNCT
n296ww74n4g	5	1	we	we	PRON
n296ww74n4g	5	2	used	use	VERB
n296ww74n4g	5	3	periodic	periodic	ADJ
n296ww74n4g	5	4	dft	dft	ADJ
n296ww74n4g	5	5	calculations	calculation	NOUN
n296ww74n4g	5	6	in	in	ADP
n296ww74n4g	5	7	the	the	DET
n296ww74n4g	5	8	vienna	vienna	PROPN
n296ww74n4g	5	9	ab	ab	PROPN
n296ww74n4g	5	10	initio	initio	PROPN
n296ww74n4g	5	11	simulation	simulation	PROPN
n296ww74n4g	5	12	package	package	NOUN
n296ww74n4g	5	13	to	to	PART
n296ww74n4g	5	14	compute	compute	VERB
n296ww74n4g	5	15	the	the	DET
n296ww74n4g	5	16	energies	energy	NOUN
n296ww74n4g	5	17	of	of	ADP
n296ww74n4g	5	18	vacancies	vacancy	NOUN
n296ww74n4g	5	19	,	,	PUNCT
n296ww74n4g	5	20	o	o	PROPN
n296ww74n4g	5	21	,	,	PUNCT
n296ww74n4g	5	22	o2	o2	PROPN
n296ww74n4g	5	23	,	,	PUNCT
n296ww74n4g	5	24	no	no	INTJ
n296ww74n4g	5	25	,	,	PUNCT
n296ww74n4g	5	26	no2	no2	NOUN
n296ww74n4g	5	27	,	,	PUNCT
n296ww74n4g	5	28	and	and	CCONJ
n296ww74n4g	5	29	no3	no3	NOUN
n296ww74n4g	5	30	on	on	ADP
n296ww74n4g	5	31	the	the	DET
n296ww74n4g	5	32	(	(	PUNCT
n296ww74n4g	5	33	100)-lao	100)-lao	NUM
n296ww74n4g	5	34	and	and	CCONJ
n296ww74n4g	5	35	(	(	PUNCT
n296ww74n4g	5	36	100)-coo2	100)-coo2	NUM
n296ww74n4g	5	37	terminations	termination	NOUN
n296ww74n4g	5	38	of	of	ADP
n296ww74n4g	5	39	the	the	DET
n296ww74n4g	5	40	parent	parent	NOUN
n296ww74n4g	5	41	lacoo3	lacoo3	PROPN
n296ww74n4g	5	42	and	and	CCONJ
n296ww74n4g	5	43	8%-doped	8%-dope	VERB
n296ww74n4g	5	44	sr	sr	PROPN
n296ww74n4g	5	45	-	-	PUNCT
n296ww74n4g	5	46	substituted	substitute	VERB
n296ww74n4g	5	47	material	material	NOUN
n296ww74n4g	5	48	.	.	PUNCT
n296ww74n4g	6	1	further	far	ADV
n296ww74n4g	6	2	,	,	PUNCT
n296ww74n4g	6	3	we	we	PRON
n296ww74n4g	6	4	used	use	VERB
n296ww74n4g	6	5	first	first	ADJ
n296ww74n4g	6	6	-	-	PUNCT
n296ww74n4g	6	7	principles	principle	NOUN
n296ww74n4g	6	8	thermodynamic	thermodynamic	ADJ
n296ww74n4g	6	9	models	model	NOUN
n296ww74n4g	6	10	to	to	PART
n296ww74n4g	6	11	determine	determine	VERB
n296ww74n4g	6	12	the	the	DET
n296ww74n4g	6	13	most	most	ADV
n296ww74n4g	6	14	common	common	ADJ
n296ww74n4g	6	15	surface	surface	NOUN
n296ww74n4g	6	16	species	specie	NOUN
n296ww74n4g	6	17	under	under	ADP
n296ww74n4g	6	18	no	no	DET
n296ww74n4g	6	19	oxidation	oxidation	NOUN
n296ww74n4g	6	20	conditions	condition	NOUN
n296ww74n4g	6	21	.	.	PUNCT
n296ww74n4g	7	1	experimental	experimental	ADJ
n296ww74n4g	7	2	tpd	tpd	PROPN
n296ww74n4g	7	3	suggest	suggest	VERB
n296ww74n4g	7	4	o	o	INTJ
n296ww74n4g	7	5	,	,	PUNCT
n296ww74n4g	7	6	no	no	INTJ
n296ww74n4g	7	7	,	,	PUNCT
n296ww74n4g	7	8	and	and	CCONJ
n296ww74n4g	7	9	no2	no2	PROPN
n296ww74n4g	7	10	species	specie	NOUN
n296ww74n4g	7	11	are	be	AUX
n296ww74n4g	7	12	present	present	ADJ
n296ww74n4g	7	13	on	on	ADP
n296ww74n4g	7	14	the	the	DET
n296ww74n4g	7	15	perovskites	perovskite	NOUN
n296ww74n4g	7	16	.	.	PUNCT
n296ww74n4g	8	1	thermodynamic	thermodynamic	ADJ
n296ww74n4g	8	2	models	model	NOUN
n296ww74n4g	8	3	show	show	VERB
n296ww74n4g	8	4	nitrates	nitrate	NOUN
n296ww74n4g	8	5	and	and	CCONJ
n296ww74n4g	8	6	adsorbed	adsorb	VERB
n296ww74n4g	8	7	no2	no2	PRON
n296ww74n4g	8	8	as	as	ADP
n296ww74n4g	8	9	the	the	DET
n296ww74n4g	8	10	most	most	ADV
n296ww74n4g	8	11	stable	stable	ADJ
n296ww74n4g	8	12	species	specie	NOUN
n296ww74n4g	8	13	on	on	ADP
n296ww74n4g	8	14	the	the	DET
n296ww74n4g	8	15	lao	lao	NOUN
n296ww74n4g	8	16	and	and	CCONJ
n296ww74n4g	8	17	coo2	coo2	NOUN
n296ww74n4g	8	18	terminations	termination	NOUN
n296ww74n4g	8	19	,	,	PUNCT
n296ww74n4g	8	20	respectively	respectively	ADV
n296ww74n4g	8	21	.	.	PUNCT
n296ww74n4g	9	1	based	base	VERB
n296ww74n4g	9	2	on	on	ADP
n296ww74n4g	9	3	the	the	DET
n296ww74n4g	9	4	results	result	NOUN
n296ww74n4g	9	5	above	above	ADV
n296ww74n4g	9	6	,	,	PUNCT
n296ww74n4g	9	7	we	we	PRON
n296ww74n4g	9	8	performed	perform	VERB
n296ww74n4g	9	9	a	a	DET
n296ww74n4g	9	10	dft	dft	NOUN
n296ww74n4g	9	11	screening	screening	NOUN
n296ww74n4g	9	12	of	of	ADP
n296ww74n4g	9	13	vacancies	vacancy	NOUN
n296ww74n4g	9	14	,	,	PUNCT
n296ww74n4g	9	15	o	o	INTJ
n296ww74n4g	9	16	,	,	PUNCT
n296ww74n4g	9	17	no	no	INTJ
n296ww74n4g	9	18	,	,	PUNCT
n296ww74n4g	9	19	no2	no2	NOUN
n296ww74n4g	9	20	,	,	PUNCT
n296ww74n4g	9	21	and	and	CCONJ
n296ww74n4g	9	22	no3	no3	NOUN
n296ww74n4g	9	23	intermediates	intermediate	NOUN
n296ww74n4g	9	24	on	on	ADP
n296ww74n4g	9	25	the	the	DET
n296ww74n4g	9	26	(	(	PUNCT
n296ww74n4g	9	27	100)-lao	100)-lao	NUM
n296ww74n4g	9	28	and	and	CCONJ
n296ww74n4g	9	29	(	(	PUNCT
n296ww74n4g	9	30	100)-mo2	100)-mo2	NUM
n296ww74n4g	9	31	terminations	termination	NOUN
n296ww74n4g	9	32	of	of	ADP
n296ww74n4g	9	33	the	the	DET
n296ww74n4g	9	34	entire	entire	ADJ
n296ww74n4g	9	35	first	first	ADJ
n296ww74n4g	9	36	row	row	NOUN
n296ww74n4g	9	37	perovskite	perovskite	PROPN
n296ww74n4g	9	38	series	series	PROPN
n296ww74n4g	9	39	,	,	PUNCT
n296ww74n4g	9	40	lamo3	lamo3	PROPN
n296ww74n4g	9	41	(	(	PUNCT
n296ww74n4g	9	42	m	m	NOUN
n296ww74n4g	9	43	=	=	SYM
n296ww74n4g	9	44	sc	sc	PROPN
n296ww74n4g	9	45	-	-	PUNCT
n296ww74n4g	9	46	cu	cu	PROPN
n296ww74n4g	9	47	)	)	PUNCT
n296ww74n4g	9	48	.	.	PUNCT
n296ww74n4g	10	1	vacancy	vacancy	NOUN
n296ww74n4g	10	2	and	and	CCONJ
n296ww74n4g	10	3	o	o	INTJ
n296ww74n4g	10	4	energies	energy	NOUN
n296ww74n4g	10	5	vary	vary	VERB
n296ww74n4g	10	6	nearly	nearly	ADV
n296ww74n4g	10	7	linearly	linearly	ADV
n296ww74n4g	10	8	across	across	ADP
n296ww74n4g	10	9	the	the	DET
n296ww74n4g	10	10	series	series	NOUN
n296ww74n4g	10	11	,	,	PUNCT
n296ww74n4g	10	12	while	while	SCONJ
n296ww74n4g	10	13	nox	nox	NOUN
n296ww74n4g	10	14	adsorption	adsorption	NOUN
n296ww74n4g	10	15	energies	energy	NOUN
n296ww74n4g	10	16	show	show	VERB
n296ww74n4g	10	17	less	less	ADJ
n296ww74n4g	10	18	variability	variability	NOUN
n296ww74n4g	10	19	.	.	PUNCT
n296ww74n4g	11	1	we	we	PRON
n296ww74n4g	11	2	constructed	construct	VERB
n296ww74n4g	11	3	relative	relative	ADJ
n296ww74n4g	11	4	energy	energy	NOUN
n296ww74n4g	11	5	diagrams	diagram	NOUN
n296ww74n4g	11	6	combining	combine	VERB
n296ww74n4g	11	7	these	these	DET
n296ww74n4g	11	8	results	result	NOUN
n296ww74n4g	11	9	with	with	ADP
n296ww74n4g	11	10	both	both	DET
n296ww74n4g	11	11	langmuir	langmuir	PROPN
n296ww74n4g	11	12	hinshelwood	hinshelwood	PROPN
n296ww74n4g	11	13	(	(	PUNCT
n296ww74n4g	11	14	lh	lh	INTJ
n296ww74n4g	11	15	,	,	PUNCT
n296ww74n4g	11	16	competitive	competitive	ADJ
n296ww74n4g	11	17	surface	surface	NOUN
n296ww74n4g	11	18	adsorption	adsorption	NOUN
n296ww74n4g	11	19	)	)	PUNCT
n296ww74n4g	11	20	and	and	CCONJ
n296ww74n4g	11	21	mars	mars	PROPN
n296ww74n4g	11	22	van	van	PROPN
n296ww74n4g	11	23	krevelen	krevelen	PROPN
n296ww74n4g	11	24	(	(	PUNCT
n296ww74n4g	11	25	mvk	mvk	PROPN
n296ww74n4g	11	26	,	,	PUNCT
n296ww74n4g	11	27	vacancy	vacancy	NOUN
n296ww74n4g	11	28	-	-	PUNCT
n296ww74n4g	11	29	mediated	mediate	VERB
n296ww74n4g	11	30	)	)	PUNCT
n296ww74n4g	11	31	reaction	reaction	NOUN
n296ww74n4g	11	32	mechanisms	mechanism	NOUN
n296ww74n4g	11	33	.	.	PUNCT
n296ww74n4g	12	1	these	these	DET
n296ww74n4g	12	2	models	model	NOUN
n296ww74n4g	12	3	show	show	VERB
n296ww74n4g	12	4	that	that	SCONJ
n296ww74n4g	12	5	the	the	DET
n296ww74n4g	12	6	reaction	reaction	NOUN
n296ww74n4g	12	7	mechanism	mechanism	NOUN
n296ww74n4g	12	8	is	be	AUX
n296ww74n4g	12	9	sensitive	sensitive	ADJ
n296ww74n4g	12	10	to	to	ADP
n296ww74n4g	12	11	the	the	DET
n296ww74n4g	12	12	material	material	NOUN
n296ww74n4g	12	13	,	,	PUNCT
n296ww74n4g	12	14	termination	termination	NOUN
n296ww74n4g	12	15	,	,	PUNCT
n296ww74n4g	12	16	and	and	CCONJ
n296ww74n4g	12	17	temperature	temperature	NOUN
n296ww74n4g	12	18	.	.	PUNCT
n296ww74n4g	13	1	surface	surface	NOUN
n296ww74n4g	13	2	pathway	pathway	NOUN
n296ww74n4g	13	3	microkinetic	microkinetic	ADJ
n296ww74n4g	13	4	models	model	NOUN
n296ww74n4g	13	5	predict	predict	VERB
n296ww74n4g	13	6	rates	rate	NOUN
n296ww74n4g	13	7	of	of	ADP
n296ww74n4g	13	8	the	the	DET
n296ww74n4g	13	9	lh	lh	INTJ
n296ww74n4g	13	10	mo2>lao	mo2>lao	NOUN
n296ww74n4g	13	11	pathway	pathway	NOUN
n296ww74n4g	13	12	with	with	ADP
n296ww74n4g	13	13	mn	mn	PROPN
n296ww74n4g	13	14	having	have	VERB
n296ww74n4g	13	15	the	the	DET
n296ww74n4g	13	16	highest	high	ADJ
n296ww74n4g	13	17	tof	tof	NOUN
n296ww74n4g	13	18	.	.	PUNCT
n296ww74n4g	14	1	finally	finally	ADV
n296ww74n4g	14	2	,	,	PUNCT
n296ww74n4g	14	3	sulfur	sulfur	NOUN
n296ww74n4g	14	4	deactivation	deactivation	NOUN
n296ww74n4g	14	5	is	be	AUX
n296ww74n4g	14	6	a	a	DET
n296ww74n4g	14	7	practical	practical	ADJ
n296ww74n4g	14	8	challenge	challenge	NOUN
n296ww74n4g	14	9	for	for	ADP
n296ww74n4g	14	10	the	the	DET
n296ww74n4g	14	11	application	application	NOUN
n296ww74n4g	14	12	of	of	ADP
n296ww74n4g	14	13	perovskites	perovskite	NOUN
n296ww74n4g	14	14	as	as	ADP
n296ww74n4g	14	15	no	no	DET
n296ww74n4g	14	16	oxidation	oxidation	NOUN
n296ww74n4g	14	17	catalysts	catalyst	NOUN
n296ww74n4g	14	18	.	.	PUNCT
n296ww74n4g	15	1	however	however	ADV
n296ww74n4g	15	2	,	,	PUNCT
n296ww74n4g	15	3	recent	recent	ADJ
n296ww74n4g	15	4	reports	report	NOUN
n296ww74n4g	15	5	have	have	AUX
n296ww74n4g	15	6	determined	determine	VERB
n296ww74n4g	15	7	that	that	SCONJ
n296ww74n4g	15	8	depositing	deposit	VERB
n296ww74n4g	15	9	pd	pd	PROPN
n296ww74n4g	15	10	onto	onto	ADP
n296ww74n4g	15	11	lacoo3	lacoo3	PROPN
n296ww74n4g	15	12	can	can	AUX
n296ww74n4g	15	13	increase	increase	VERB
n296ww74n4g	15	14	the	the	DET
n296ww74n4g	15	15	sulfur	sulfur	NOUN
n296ww74n4g	15	16	tolerance	tolerance	NOUN
n296ww74n4g	15	17	.	.	PUNCT
n296ww74n4g	16	1	we	we	PRON
n296ww74n4g	16	2	explore	explore	VERB
n296ww74n4g	16	3	the	the	DET
n296ww74n4g	16	4	binding	binding	NOUN
n296ww74n4g	16	5	of	of	ADP
n296ww74n4g	16	6	sox	sox	X
n296ww74n4g	16	7	on	on	ADP
n296ww74n4g	16	8	lacoo3	lacoo3	PROPN
n296ww74n4g	16	9	and	and	CCONJ
n296ww74n4g	16	10	various	various	ADJ
n296ww74n4g	16	11	models	model	NOUN
n296ww74n4g	16	12	of	of	ADP
n296ww74n4g	16	13	pd	pd	PROPN
n296ww74n4g	16	14	deposition	deposition	PROPN
n296ww74n4g	16	15	.	.	PUNCT
n296ww74n4g	17	1	the	the	DET
n296ww74n4g	17	2	increasing	increase	VERB
n296ww74n4g	17	3	pd	pd	PROPN
n296ww74n4g	17	4	content	content	NOUN
n296ww74n4g	17	5	in	in	ADP
n296ww74n4g	17	6	general	general	ADJ
n296ww74n4g	17	7	decreases	decrease	VERB
n296ww74n4g	17	8	the	the	DET
n296ww74n4g	17	9	binding	binding	NOUN
n296ww74n4g	17	10	of	of	ADP
n296ww74n4g	17	11	sulfur	sulfur	NOUN
n296ww74n4g	17	12	to	to	ADP
n296ww74n4g	17	13	the	the	DET
n296ww74n4g	17	14	lao	lao	NOUN
n296ww74n4g	17	15	termination	termination	NOUN
n296ww74n4g	17	16	.	.	PUNCT
n296ww74n4g	18	1	we	we	PRON
n296ww74n4g	18	2	also	also	ADV
n296ww74n4g	18	3	use	use	VERB
n296ww74n4g	18	4	thermodynamic	thermodynamic	ADJ
n296ww74n4g	18	5	modeling	modeling	NOUN
n296ww74n4g	18	6	to	to	PART
n296ww74n4g	18	7	explore	explore	VERB
n296ww74n4g	18	8	the	the	DET
n296ww74n4g	18	9	phase	phase	NOUN
n296ww74n4g	18	10	degradation	degradation	NOUN
n296ww74n4g	18	11	in	in	ADP
n296ww74n4g	18	12	of	of	ADP
n296ww74n4g	18	13	lacoo3	lacoo3	NOUN
n296ww74n4g	18	14	in	in	ADP
n296ww74n4g	18	15	the	the	DET
n296ww74n4g	18	16	presence	presence	NOUN
n296ww74n4g	18	17	of	of	ADP
n296ww74n4g	18	18	sulfur	sulfur	NOUN
n296ww74n4g	18	19	.	.	PUNCT
n296ww74n4g	19	1	the	the	DET
n296ww74n4g	19	2	la2o2so4	la2o2so4	NOUN
n296ww74n4g	19	3	is	be	AUX
n296ww74n4g	19	4	the	the	DET
n296ww74n4g	19	5	lowest	low	ADJ
n296ww74n4g	19	6	energy	energy	NOUN
n296ww74n4g	19	7	phase	phase	NOUN
n296ww74n4g	19	8	of	of	ADP
n296ww74n4g	19	9	la2o3	la2o3	PROPN
n296ww74n4g	19	10	,	,	PUNCT
n296ww74n4g	19	11	coo2	coo2	NOUN
n296ww74n4g	19	12	,	,	PUNCT
n296ww74n4g	19	13	co2o3	co2o3	SPACE
n296ww74n4g	19	14	,	,	PUNCT
n296ww74n4g	19	15	and	and	CCONJ
n296ww74n4g	19	16	lacoo3	lacoo3	PROPN
n296ww74n4g	19	17	.	.	PUNCT