THEORETICAL INVESTIGATION OF THE EFFECT OF CONJUATION OF THIOPHENE RINGS ON THE CHARGE TRANSPORT OF THIENOCORONENE DERIVATIVES

Chen, Ziran; Zhang, Yujin; He, Zhanrong; Li, Yuan; Xia, Meihao; Yu, Wenhao

doi:10.21577/0100-4042.20170820

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Articles • Quim. Nova 45 (03) • 2022 • https://doi.org/10.21577/0100-4042.20170820 copy

THEORETICAL INVESTIGATION OF THE EFFECT OF CONJUATION OF THIOPHENE RINGS ON THE CHARGE TRANSPORT OF THIENOCORONENE DERIVATIVES

Authorship SCIMAGO INSTITUTIONS RANKINGS

Based on density functional theory, quantum chemical calculations of the charge-transport rates were performed for five disc-shaped coronene derivatives with varying numbers of fused thiophene rings, using different basis sets 6-31+G(d) and 6-311++G(d,p), hybrid functionals (B3LYP, M06-2X, CAM-B3LYP, WB97XD, M08-HX), and a dispersion-corrected hybrid functional (M06-2X+D3). Our results indicate that increasing the basis set and adding diffusion and polarisation functions had little effect on the molecular reorganisation energy, charge-transport matrix element t, and charge carrier mobility μ. The charge carrier mobility calculated using B3LYP were relatively large, whereas the results calculated using CAM-B3LYP and WB97XD were similar. Among the five coronene derivatives, molecule b with one thiophene ring could be candidates for a n-type organic semiconductor, and molecule c with two thiophene rings can be designed as a p-type semiconductor.

Keywords:
thiophene; coronene; charge carrier mobility; density functional theory; organic semiconductor

Comp.	λ	B3LYP/ 6-31+G(d)	B3LYP/ 6-311++G(d,p)	M06-2X/ 6-31+G(d)	M06-2X/ 6-311++G(d,p)	M08-HX/ 6-31+G(d)	M08-HX/ 6-311++G(d,p)
a	λ₊	52.09	53.22	62.51	65.22	66.93	68.82
a	λ_-	24.75	24.88	30.18	30.11	28.59	27.77
b	λ₊	36.24	36.66	56.18	57.21	57.94	57.94
b	λ_-	22.51	22.87	27.82	27.75	26.38	26.09
c	λ₊	33.6	34.09	45.98	47.02	46.99	48.86
c	λ_-	21.44	21.77	26.49	26.91	25.44	25.49
d	λ₊	39.56	40.18	49.24	50.54	50.77	49.99
d	λ_-	21.64	21.86	26.26	26.62	25.10	24.91
e	λ₊	28.59	29.21	36.39	37.02	29.5	29.39
e	λ_-	19.66	20.09	24.47	24.87	23.26	23.01

Comp.	IP_V	IP_a	HEP	EA_V	EA_a	EEP
a	6.8322	6.5874	-6.2483	-0.4805	-0.6394	0.7957
b	6.6260	6.5045	-6.4330	-0.5983	-0.7425	0.8859
c	6.7634	6.5546	-6.3148	-0.5034	-0.6839	0.8357
d	6.7980	6.5801	-6.2920	-0.4665	-0.6196	0.7707
e	6.7385	6.5557	-6.3441	-0.5049	-0.6473	0.7886

Comp.	μ	B3LYP/ 6-31+G(d)	B3LYP/ 6-311++G(d,p)	M06-2X/ 6-31+G(d)	M06-2X/ 6-311++G(d,p)	M08-HX/ 6-31+G(d)	M08-HX/ 6-311++G(d,p)
a	μ ₊	0.0234	0.0142	0.0121	0.0079	0.0107	0.007
a	μ _-	0.0888	0.0183	0.0189	0.0103	0.0231	0.007
b	μ ₊	0.1799	0.181	0.0561	0.0366	0.0458	0.047
b	μ _-	0.4014	0.385	0.1405	0.1495	0.2048	0.2009
c	μ ₊	0.0797	0.076	0.0203	0.0276	0.0287	0.0259
c	μ _-	0.0098	0.024	0.0142	0.0118	0.0395	0.0456
d	μ ₊	0.0788	0.0773	0.0223	0.0276	0.0196	0.0172
d	μ _-	0.0111	0.0105	0.0044	0.0039	0.0105	0.0125
e	μ ₊	0.0951	0.127	0.0324	0.0394	0.0214	0.0221
e	μ _-	0.0786	0.085	0.0399	0.0343	0.0335	0.0457

Comp.	λ	M06-2X	CAM-B3LYP	WB97XD	t	M06-2X	CAM-B3LYP	WB97XD	μ	M06-2X	CAM-B3LYP	WB97XD
a	λ₊	65.22	63.01	59.33	t ₊	8.02	6.64	5.81	μ ₊	0.0079	0.007	0.0079
a	λ_-	30.11	32.88	32.95	t _-	1.29	2.06	1.88	μ _-	0.0103	0.019	0.0156
b	λ₊	57.21	52.86	56.76	t ₊	11.13	11.95	12.97	μ ₊	0.0366	0.068	0.0534
b	λ_-	27.75	30.41	30.68	t _-	4.28	4.61	4.79	μ _-	0.1495	0.127	0.1323
c	λ₊	47.02	43.28	48.82	t ₊	5.52	3.72	4.66	μ ₊	0.0276	0.019	0.0161
c	λ_-	26.91	29.45	29.94	t _-	1.14	1.09	0.99	μ _-	0.0118	0.008	0.0063
d	λ₊	50.54	48.83	52.01	t ₊	5.52	6.05	5.48	μ ₊	0.0276	0.027	0.0158
d	λ_-	26.62	29.35	29.67	t _-	0.64	0.75	0.55	μ _-	0.0039	0.004	0.0019
e	λ₊	37.02	38.06	39.08	t ₊	3.76	2.29	2.68	μ ₊	0.0394	0.013	0.0105
e	λ_-	24.87	27.38	28.19	t _-	1.73	1.96	1.81	μ _-	0.0343	0.033	0.0252

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