Thermoelectric Properties of Semiconducting Polymers

Semiconducting polymers have the potential to be used in thermoelectric devices that are lightweight, flexible, and fabricated using solution processing. Because of the structural and energetic disorder of these polymers, the relationship between their structure and thermoelectric properties is complex. We review how interrelated processing routes and doping methods affect the thermoelectric properties of polymers. The studies highlighted here have led to correlations between thermopower and electrical conductivity that can be described by theories under investigation. With greater understanding of the materials properties behind their performance, semiconducting polymers can be used in future power generation or cooling devices.

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Recent progress on PEDOT:PSS based polymer blends and composites for flexible electronics and thermoelectric devices

Materials Chemistry Frontiers ◽

10.1039/d0qm00308e ◽

2020 ◽

Vol 4 (11) ◽

pp. 3130-3152 ◽

Cited By ~ 1

Author(s):

Yan Yang ◽

Hua Deng ◽

Qiang Fu

Keyword(s):

Electrical Conductivity ◽

Polymer Blends ◽

Thermoelectric Properties ◽

Flexible Electronics ◽

Recent Progress ◽

Thermoelectric Devices

Recent progress on PEDOT:PSS composites by incorporating various polymers and fillers through blending and mixing methods and main focus is put onto the electrical conductivity, stretchability and thermoelectric properties.

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First principle investigation of stuctural, electronic, and thermoelectric properties of Ga1-xInxP (x = 0.0 to 1.0) alloys

Physica Scripta ◽

10.1088/1402-4896/ac48ab ◽

2022 ◽

Author(s):

Abeer AlObaid

Keyword(s):

Electrical Conductivity ◽

Band Gap ◽

Thermoelectric Properties ◽

Power Factor ◽

Figure Of Merit ◽

First Principle ◽

Group Iii V Semiconductors ◽

Thermoelectric Devices ◽

Group Iii ◽

Maximum Value

Abstract Group III-V semiconductors are extensively studied for various technological applications. Different properties of Ga1-xInxP such as electronic, optical, elastic, thermal and mechanical, etc. were studied under different concentrations. However, there is no evident for thermoelectric performance of Ga1-xInxP (x = 0.0, 0.25, 0.50, 0.75 and 1.0). In the present study, we have calculated the structural, electronic and thermoelectric behavior of Ga1-xInxP by utilizing the WIEN2K package. The InP show indirect semiconductor nature of band gap of 2.1 eV. By adding the concentration of In, the band gap nature shifts from indirect to direct with a decrease in the band gap. For thermoelectric properties, Seebeck, thermal and electrical conductivity, power factor and figure of merit ZT are investigated through the BoltzTraP code. Our study reveals that Ga1-xInxP has a maximum value of ZT=0.79 at x=1, provide an opportunity for developing good thermoelectric devices.

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Highly Efficient Transverse Thermoelectric Devices with Re4Si7 Crystals

Energy & Environmental Science ◽

10.1039/d1ee00923k ◽

2021 ◽

Author(s):

Michael R. Scudder ◽

Bin He ◽

Yaxian Wang ◽

Akash Rai ◽

David Cahill ◽

...

Keyword(s):

Power Generation ◽

Thermoelectric Power ◽

Thermoelectric Devices ◽

Thermoelectric Power Generation ◽

Highly Efficient ◽

Semiconductor Contacts

The principal challenges in current thermoelectric power generation modules is the availability of stable, diffusion-resistant, lossless electrical and thermal metal-semiconductor contacts that do not degrade at the hot end nor...

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Metal-like electrical conductivity in LaxSr2−xTiMoO6 oxides for high temperature thermoelectric power generation

Dalton Transactions ◽

10.1039/c7dt00848a ◽

2017 ◽

Vol 46 (18) ◽

pp. 5872-5879 ◽

Cited By ~ 12

Author(s):

Mandvi Saxena ◽

Tanmoy Maiti

Keyword(s):

Power Generation ◽

Electrical Conductivity ◽

High Temperature ◽

Energy Conversion ◽

Thermoelectric Power ◽

Conversion Efficiency ◽

Energy Conversion Efficiency ◽

Power Generators ◽

Thermoelectric Power Generation

Increasing electrical conductivity in oxides, which are inherently insulators, can be a potential route in developing oxide-based thermoelectric power generators with higher energy conversion efficiency.

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The Influence of Silicon Dopant and Processing on Thermoelectric Properties of B4C Ceramics

MRS Proceedings ◽

10.1557/proc-545-131 ◽

1998 ◽

Vol 545 ◽

Cited By ~ 8

Author(s):

Ke-Feng Cai ◽

Ce-Wen Nan ◽

Xin-Min Min

Keyword(s):

Electrical Conductivity ◽

Seebeck Coefficient ◽

Thermoelectric Properties ◽

Hot Pressing ◽

Figure Of Merit ◽

Room Temperature ◽

A Value ◽

Si Doped

AbstractB4C ceramics doped with various content of Si (0 to 2.03 at%) are prepared via hot pressing. The composition and microstructure of the ceramics are characterized by means of XRD and EPMA. Their electrical conductivity and Seebeck coefficient of the samples are measured from room temperature up to 1500K. The electrical conductivity increases with temperature, and more rapidly after 1300K; the Seebeck coefficient of the ceramics also increases with temperature and rises to a value of about 320μVK−1. The value of the figure of merit of Si-doped B4C rises to about 4 × 10−4K−1 at 1500K.

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Laboratory study of the influence of salinity on the relationship between electrical conductivity and wetness of snow

Hydrological Processes ◽

10.1002/hyp.7659 ◽

2010 ◽

pp. n/a-n/a

Author(s):

Nils Granlund ◽

Angela Lundberg ◽

David Gustafsson

Keyword(s):

Electrical Conductivity ◽

Laboratory Study ◽

The Relationship

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Influence of leg sizing and spacing on power generation and thermal stresses of thermoelectric devices

Applied Energy ◽

10.1016/j.apenergy.2015.08.112 ◽

2015 ◽

Vol 159 ◽

pp. 19-27 ◽

Cited By ~ 49

Author(s):

Ugur Erturun ◽

Kaan Erermis ◽

Karla Mossi

Keyword(s):

Power Generation ◽

Thermal Stresses ◽

Thermoelectric Devices

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Material Properties and Design Aspects of Folding Bicycle Frame

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.264-265.777 ◽

2011 ◽

Vol 264-265 ◽

pp. 777-782 ◽

Cited By ~ 2

Author(s):

M.A. Maleque ◽

M.S. Hossain ◽

S. Dyuti

Keyword(s):

Material Properties ◽

Raw Material ◽

New Materials ◽

Materials Properties ◽

Advantages And Disadvantages ◽

Bicycle Frame ◽

Successful Design ◽

Future Direction ◽

The Relationship ◽

Comprehensive Study

successful design of folding bicycle should take into account the function, material properties, and fabrication process. There are some other factors that should be considered in anticipating the behavior of materials for folding bicycle. In order to understand the relationship between material properties and design of a folding bicycle and also for the future direction in new materials with new design, a comprehensive study on the design under different conditions are essential. Therefore, a systematic study on the relationship between material properties and design for folding bicycle has been performed. The advantages and disadvantages matrix between conventional bicycle and folding bicycle is presented for better understanding of the materials properties and design. It was found that the materials properties of the folding bicycle frame such as fatigue and tensile strength are the important properties for the better performance of the frame. The relationship between materials properties and design is not straight forward because the behavior of the material in the finished product could be different from that of the raw material. The swing hinge technique could be a better technique in the design for the folding bicycle frame.

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Prediction of Reproductive Success in Multiparous First Service Dairy Cows by Parameters from In-Line Sensors

Agriculture ◽

10.3390/agriculture11040334 ◽

2021 ◽

Vol 11 (4) ◽

pp. 334

Author(s):

Ramūnas Antanaitis ◽

Vida Juozaitienė ◽

Dovilė Malašauskienė ◽

Mindaugas Televičius ◽

Mingaudas Urbutis ◽

...

Keyword(s):

Electrical Conductivity ◽

Blood Parameters ◽

Negative Energy ◽

Hydroxybutyric Acid ◽

Pregnancy Status ◽

Group A ◽

Biochemical Indices ◽

Relationship Of ◽

The Relationship

The aim of the current study was to evaluate the relationship of different parameters from an automatic milking system (AMS) with the pregnancy status of multiparous cows at first service and to assess the accuracy of such a follow-up with regard to blood parameters. Before the insemination of cows, blood samples for measuring biochemical indices were taken from the coccygeal vessels and the concentrations of blood serum albumin (ALB), cortisol, non-esterified fatty acids (NEFA) and the activities of aspartate aminotransferase (AST) and gamma glutamyltransferase (GGT) were determined. From oestrus day to seven days after oestrus, the following parameters were registered: milk yield (MY), electric milk conductivity, lactate dehydrogenase (LDH) and β-hydroxybutyric acid (BHB). The pregnancy status was evaluated using ultrasound “Easy scan” 30–35 days after insemination. Cows were grouped by reproductive status: PG− (non-pregnant; n = 48) and PG+ (pregnant; n = 44). The BHB level in PG− cows was 1.2 times higher (p < 0.005). The electrical conductivity of milk was statistically significantly higher in all quarters of PG− cows (1.07 times) than of PG+ cows (p < 0.05). The arithmetic mean of blood GGT was 1.61 times higher in PG− cows and the NEFA value 1.23 times higher (p < 0.05) compared with the PG+ group. The liver function was affected, the average ALB of PG− cows was 1.19 times lower (p < 0.05) and the AST activity was 1.16 times lower (p < 0.05) compared with PG+ cows. The non-pregnant group had a negative energy balance demonstrated by high in-line milk BHB and high blood NEFA concentrations. We found a greater number of cows with cortisol >0.0.75 mg/dL in the non-pregnant group. A higher milk electrical conductivity in the non-pregnant cows pointed towards a greater risk of mastitis while higher GGT activities together with lower albumin concentrations indicated that the cows were more affected by oxidative stress.

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Band Structure and Thermoelectric Properties of Ni(x)Zn(1-x)Fe2O4

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.317.28 ◽

2021 ◽

Vol 317 ◽

pp. 28-34

Author(s):

Joon Hoong Lim

Keyword(s):

Thermal Conductivity ◽

Electrical Conductivity ◽

Band Structure ◽

Seebeck Coefficient ◽

Band Gap ◽

Thermoelectric Properties ◽

Xrd Analysis ◽

Valence Band Maximum ◽

Solid State Method ◽

Ni Content

Thermoelectric materials has made a great potential in sustainable energy industries, which enable the energy conversion from heat to electricity. The band structure and thermoelectric properties of Ni(x)Zn(1-x)Fe2O4 have been investigated. The bulk pellets were prepared from analytical grade ZnO, NiO and Fe2O3 powder using solid-state method. It was possible to obtain high thermoelectric properties of Ni(x)Zn(1-x)Fe2O4 by controlling the ratios of dopants and the sintering temperature. XRD analysis showed that the fabricated samples have a single phase formation of cubic spinel structure. The thermoelectric properties of Ni(x)Zn(1-x)Fe2O4 pellets improved with increasing Ni. The electrical conductivity of Ni(x)Zn(1-x)Fe2O4 pellets decreased with increasing Ni content. The electrical conductivity of Ni(x)Zn(1-x)Fe2O4 (x = 0.0) is (0.515 x10-3 Scm-1). The band structure shows that ZnxCu1-xFe2O4 is an indirect band gap material with the valence band maximum (VBM) at M and conduction band minimum (CBM) at A. The band gap of Ni(x)Zn(1-x)Fe2O4 increased with increasing Ni content. The increasing band gap correlated with the lower electrical conductivity. The thermal conductivity of Ni(x)Zn(1-x)Fe2O4 pellets decreased with increasing Ni content. The presence of Ni served to decrease thermal conductivity by 8 Wm-1K-1 over pure samples. The magnitude of the Seebeck coefficient for Ni(x)Zn(1-x)Fe2O4 pellets increased with increasing amounts of Ni. The figure of merit for Ni(x)Zn(1-x)Fe2O4 pellets and thin films was improved by increasing Ni due to its high Seebeck coefficient and low thermal conductivity.

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