Aggregation plays a critical role in modulating the photophysical process of organicmolecules.However,the rational control of the construction of a functionoriented stacking mode for efficient photothermal(PT)conversi...Aggregation plays a critical role in modulating the photophysical process of organicmolecules.However,the rational control of the construction of a functionoriented stacking mode for efficient photothermal(PT)conversion in the second near-infrared region(NIR-II;1000-1700 nm)remains a challenge.Herein,an H-aggregation of 3,3′,5,5′-Tetramethylbenzidine(TMB)-TMB dication(TMB++)complexes in linear agarose(H-TTC/LAG)with narrowed band gap(0.96 eV)was fabricated through intermolecular hydrogenbonding interactions between the amino groups of TTC and the peripheral hydroxyl groups of LAG.Charge-transfer mechanism and H-aggregation ensured NIR-Ⅱ absorption of the complex at>1400 nm.The H-aggregation also promoted a non-radiation relaxation pathway and improved the thermal stability of TTC,which together favored the constructed H-TTC/LAG with ultra-efficient PT conversion that increased rapidly to 140℃ in 15 s under the NIR-Ⅱ laser(1064 nm,1.0 W cm^(−2))irradiation.Such a unique H-TTC/LAG with good biocompatibility was used to demonstrate a superior PT therapy via high-efficie ncy tumor growth inhibition in mouse mammary carcinoma(4T1)the BALB/c mice tumor-bearing xenografts.This is the first established H-aggregation of charge-transfer complexes in a noncovalent system,which not only provides a new strategy to develop ultra-efficient NIR-Ⅱ PT materials but also paves the way for constructing functional materials with aggregates of charge-transfer complexes.展开更多
基金financially supported by the National Natural Science Foundation of China(grant nos.91953000 and 21827811)the Science and Technology Innovation Program of Hunan Province(grant nos.2019SK2201 and 2020RC4017)the Science and Technology Development Fund,Macao(grant no.196/2017/A3).
文摘Aggregation plays a critical role in modulating the photophysical process of organicmolecules.However,the rational control of the construction of a functionoriented stacking mode for efficient photothermal(PT)conversion in the second near-infrared region(NIR-II;1000-1700 nm)remains a challenge.Herein,an H-aggregation of 3,3′,5,5′-Tetramethylbenzidine(TMB)-TMB dication(TMB++)complexes in linear agarose(H-TTC/LAG)with narrowed band gap(0.96 eV)was fabricated through intermolecular hydrogenbonding interactions between the amino groups of TTC and the peripheral hydroxyl groups of LAG.Charge-transfer mechanism and H-aggregation ensured NIR-Ⅱ absorption of the complex at>1400 nm.The H-aggregation also promoted a non-radiation relaxation pathway and improved the thermal stability of TTC,which together favored the constructed H-TTC/LAG with ultra-efficient PT conversion that increased rapidly to 140℃ in 15 s under the NIR-Ⅱ laser(1064 nm,1.0 W cm^(−2))irradiation.Such a unique H-TTC/LAG with good biocompatibility was used to demonstrate a superior PT therapy via high-efficie ncy tumor growth inhibition in mouse mammary carcinoma(4T1)the BALB/c mice tumor-bearing xenografts.This is the first established H-aggregation of charge-transfer complexes in a noncovalent system,which not only provides a new strategy to develop ultra-efficient NIR-Ⅱ PT materials but also paves the way for constructing functional materials with aggregates of charge-transfer complexes.
