Organic thermoelectric materials are emerging green energy materials, where n-type candidates are of special interest due to the strong demand for thermoelectric modules with flexibility, light weight, large-area fabrication and ease of processing into versatile shapes. Here, an exciting novel strategy to prepare an n-type single-walled carbon nanotube (SWCNT) is proposed by diethylenetriamine (DETA) doping (electron donation) and subsequent CaH2 treatment of the pristine SWCNT (p-type). The Seebeck coefficient and the electrical conductivity for the obtained DETA-CaH2-SWCNT are -41.0 + 1.5 mu V K-1 and 165 +/- 10 S cm(-1), respectively. A possible mechanism is discussed for the p-to n-type conversion. Then, a multilayered alternating stacked structure is employed to construct thermoelectric modules which realize the conduction layers electrically in series and thermally in parallel. Importantly, the module containing 14 couples displays large open circuit voltages of 62 mV and 125 mV at temperature gradients (Delta T) of 55 K and 110 K, respectively, and a maximum output power of 649 nW at Delta T = 55 K. The strategy proposed here opens a new way to fabricate organic n-type materials and flexible thermoelectric modules. These promising results show great potential in fabrication and applications of flexible and wearable power-conversion devices for next-generation power generators and waste-heatrecovery systems.
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机译:有机热电材料是新兴的绿色能源材料,由于对柔性,重量轻,大面积制造以及易于加工成通用形状的热电模块的强烈需求,n型候选材料特别受关注。在这里,提出了一种激动人心的新颖策略来制备n型单壁碳纳米管(SWCNT),方法是对二亚乙基三胺(DETA)进行掺杂(电子捐赠),然后对原始SWCNT(p型)进行CaH2处理。所得DETA-CaH2-SWCNT的塞贝克系数和电导率分别为-41.0 + 1.5μV K-1和165 +/- 10 S cm(-1)。讨论了一种用于p到n型转换的机制。然后,采用多层交替堆叠结构来构造热电模块,该热电模块以电串联和热并联的方式实现导电层。重要的是,包含14对耦合的模块在55 K和110 K的温度梯度(Delta T)下分别显示62 mV和125 mV的大开路电压,在Delta T = 55 K时的最大输出功率为649 nW。本文提出的策略为制造有机n型材料和柔性热电模块开辟了一条新途径。这些有希望的结果表明,在用于下一代发电机和废热回收系统的柔性和可穿戴电源转换设备的制造和应用中,具有巨大的潜力。
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