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A kind of high-performance pedot-tellurium nanoparticle composite film and its preparation method

A composite thin film and tellurium nanotechnology, which is applied in the field of high-performance PEDOT-Te nanoparticle composite thin film and its preparation, can solve the problems of rough surface of the thin film, low increase efficiency, and reduced goodness, so as to achieve a high stability of the reaction process and improve mechanical properties. Strength, effect of inhibiting dissociation

Active Publication Date: 2021-04-16
SHANGHAI INST OF CERAMIC CHEM & TECH CHINESE ACAD OF SCI
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Problems solved by technology

[0003] However, although the composite tellurium nanorods are promising, there are still two serious shortcomings in the current preparation process, which restrict the application of PEDOT
[0004] First of all, the current method of synthesizing composite thin films is a typical two-step method. Tellurium nanorods must be synthesized first, and then mixed with PEDOT:PSS. During the separation and transfer of tellurium nanorods, a large amount of oxidation occurs, and there are Residual surfactant, which greatly reduces the goodness of the contact between elemental tellurium and PEDOT. During the mixing process, tellurium nanorods will also settle and agglomerate in the PEDOT:PSS solution, which seriously affects the uniformity of the film. The surface of the film is extremely rough and easily cracked
In addition, PEDOT:PSS solution, as a water-soluble precursor, is widely used in the preparation of composite materials, but its structure is affected by the bulky anion PSS, and the decrease in order makes the degree of carrier localization intensified, which limits the The improvement of Seebeck coefficient, as a matrix, its performance is not ideal, but high-performance small molecule doped PEDOT, such as PEDOT:Tos, cannot be applied to the traditional two-step synthesis of PEDOT-Te because of its insolubility composite material
[0005] Secondly, the reason why tellurium can form a nanorod structure is that under the guidance of the hexagonal structure, the traditional dilute solution synthesis process (sodium tellurite + ascorbic acid) allows sufficient time and space for further growth of tellurium nanocrystals into larger The rod-like structure usually has a diameter of hundreds of nm and a length of several μm, and such large-sized particles, due to the effect of phonon dragging, have significantly lower efficiency in increasing the Seebeck coefficient, usually under the condition of adding 90wt% Effective performance improvement can be achieved. Such a high addition of tellurium material will undoubtedly cause huge damage to the ductility and processability of the polymer, and seriously waste precious crustal resources, which violates the original intention of preparing composite materials.

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  • A kind of high-performance pedot-tellurium nanoparticle composite film and its preparation method
  • A kind of high-performance pedot-tellurium nanoparticle composite film and its preparation method
  • A kind of high-performance pedot-tellurium nanoparticle composite film and its preparation method

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[0048] The invention relates to a high-performance PEDOT-tellurium nanoparticle composite film and a preparation method thereof. The high-performance PEDOT film is prepared by using a gas-phase method by using tellurium tetrahalide and a highly alcohol-soluble iron salt containing weakly basic anions as an oxidant for the reaction. Specifically, including the synthesis of mixed oxidants FeY 3 / TeX 4 , Preparation of precursor solution, spin coating, polymerization, etc., and pickling, water washing, etc. after polymerization. Tellurium tetrachloride has the dual functions of oxidant and tellurium nanoparticle precursor. While oxidizing EDOT monomer to polymerize it, it is reduced to tellurium nanoparticles by itself. The whole process only needs one reaction step; secondly, because the iron salt oxidant has high Alcohol-soluble, PEDOT film with micron film thickness can be obtained, and the weakly basic anion in the iron salt oxidant can control the concentration of hydrogen ...

Embodiment 1

[0064] PEDOT:Cl / dodecylbenzenesulfonic acid-tellurium quantum dots (PEDOT:Cl / DBSA-2~5nmTe) material

[0065] Heat the deionized aqueous solution in which 6.6028 g of sodium dodecylbenzenesulfonate is dissolved to 80°C, and add excess ferric chloride aqueous solution under vigorous stirring until the precipitation of iron dodecylbenzenesulfonate stops. The precipitate was washed ten times with deionized water until no chlorine samples were detected. Then dissolve it with 250mL of ethanol, evaporate to dryness in a rotary evaporator, and transfer it to a glove box. Mix 0.0202g of tellurium tetrachloride (molar ratio Fe:Te=80:1) into the dried product, and then redissolve the mixture in Water ethanol, formulated to a mass fraction of about 79.5% FeDBSA 3 +0.3%TeCl 4 The spin-coating fluid is ready for use. The above solution was spin-coated on a 18*18mm soda-lime glass substrate to form a film at a rotation speed of 5750rpm and a spin-coating time of 15s. Place the spin-coate...

Embodiment 2

[0068] PEDOT:Cl / dodecylbenzenesulfonic acid-tellurium quantum dots (PEDOT:Cl / DBSA-5~20nmTe) material

[0069] Heat the deionized aqueous solution in which 6.6028 g of sodium dodecylbenzenesulfonate is dissolved to 80°C, and add excess ferric chloride aqueous solution under vigorous stirring until the precipitation of iron dodecylbenzenesulfonate stops. The precipitate was washed ten times with deionized water until no chlorine samples were detected. Then it was dissolved in 250 mL of ethanol, evaporated to dryness in a rotary evaporator, and then transferred to a glove box. Mix 0.0606g of tellurium tetrachloride (molar ratio Fe:Te=26.7:1) into the dry matter, then redissolve the mixture in absolute ethanol to prepare about 79.1% FeDBSA 3 +0.8TeCl 4 The spin-coating liquid of % mass fraction is standby. The above solution was spin-coated on a 18*18mm soda-lime glass substrate to form a film at a rotation speed of 6000rpm and a spin-coating time of 18s. Place the spin-coated...

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Abstract

The invention relates to a high-performance PEDOT-tellurium nanoparticle composite film and a preparation method thereof. The composite film comprises: a PEDOT film and tellurium nanoparticles uniformly distributed in the PEDOT film, and the particle diameter of the tellurium nanoparticles is 2-300nm , the content of tellurium nanoparticles is 1.1wt%-33.9wt%. The invention can effectively improve the Seebeck coefficient of the material under the extremely low addition amount of tellurium element.

Description

technical field [0001] The invention relates to a high-performance PEDOT-Te nano particle composite film and a preparation method thereof, belonging to the field of energy materials. Background technique [0002] Conductive polymer thermoelectric materials have better ductility, processability and lower cost than traditional inorganic thermoelectric materials. Poly 3,4-ethylenedioxythiophene (PEDOT) and its derivatives are currently the most excellent conductive polymers. However, the thermoelectric performance of PEDOT is restricted by its low Seebeck coefficient, and its application is still limited. At present, there are two main methods to increase the Seebeck coefficient. One is to adjust the concentration of carriers through reduction methods, such as electrochemical reduction (Energy & Environmental Science, 2013, 6, 788) and reducing agent reduction (Organic Electronics, 2015, 17, 151 ), etc., the reduction method can greatly increase the Seebeck coefficient, but it...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08K3/30C08L65/00C08K3/02C08J5/18
Inventor 陈立东石唯姚琴瞿三寅
Owner SHANGHAI INST OF CERAMIC CHEM & TECH CHINESE ACAD OF SCI
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