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10 results on '"Yuntian Fu"'

1. Interface kinetic manipulation enabling efficient and reliable Mg3Sb2 thermoelectrics

Author

Yuntian Fu, Xin Ai, Zhongliang Hu, Shuhan Zhao, Xiaofang Lu, Jian Huang, Aibin Huang, Lianjun Wang, Qihao Zhang, and Wan Jiang

Subjects
Science
Abstract

Abstract Development of efficient and reliable thermoelectric generators is vital for the sustainable utilization of energy, yet interfacial losses and failures between the thermoelectric materials and the electrodes pose a significant obstacle. Existing approaches typically rely on thermodynamic equilibrium to obtain effective interfacial barrier layers, which underestimates the critical factors of interfacial reaction and diffusion kinetics. Here, we develop a desirable barrier layer by leveraging the distinct chemical reaction activities and diffusion behaviors during sintering and operation. Titanium foil is identified as a suitable barrier layer for Mg3Sb2-based thermoelectric materials due to the creation of a highly reactive ternary MgTiSb metastable phase during sintering, which then transforms to stable binary Ti-Sb alloys during operation. Additionally, titanium foil is advantageous due to its dense structure, affordability, and ease of manufacturing. The interfacial contact resistivity reaches below 5 μΩ·cm2, resulting in a Mg3Sb2-based module efficiency of up to 11% at a temperature difference of 440 K, which exceeds that of most state-of-the-art medium-temperature thermoelectric modules. Furthermore, the robust Ti foil/Mg3(Sb,Bi)2 joints endow Mg3Sb2-based single-legs as well as modules with negligible degradation over long-term thermal cycles, thereby paving the way for efficient and sustainable waste heat recovery applications.

Published
2024
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2. Fully inkjet-printed Ag2Se flexible thermoelectric devices for sustainable power generation

Author

Yan Liu, Qihao Zhang, Aibin Huang, Keyi Zhang, Shun Wan, Hongyi Chen, Yuntian Fu, Wusheng Zuo, Yongzhe Wang, Xun Cao, Lianjun Wang, Uli Lemmer, and Wan Jiang

Subjects
Science
Abstract

Abstract Flexible thermoelectric devices show great promise as sustainable power units for the exponentially increasing self-powered wearable electronics and ultra-widely distributed wireless sensor networks. While exciting proof-of-concept demonstrations have been reported, their large-scale implementation is impeded by unsatisfactory device performance and costly device fabrication techniques. Here, we develop Ag2Se-based thermoelectric films and flexible devices via inkjet printing. Large-area patterned arrays with microscale resolution are obtained in a dimensionally controlled manner by manipulating ink formulations and tuning printing parameters. Printed Ag2Se-based films exhibit (00 l)-textured feature, and an exceptional power factor (1097 μWm−1K−2 at 377 K) is obtained by engineering the film composition and microstructure. Benefiting from high-resolution device integration, fully inkjet-printed Ag2Se-based flexible devices achieve a record-high normalized power (2 µWK−2cm−2) and superior flexibility. Diverse application scenarios are offered by inkjet-printed devices, such as continuous power generation by harvesting thermal energy from the environment or human bodies. Our strategy demonstrates the potential to revolutionize the design and manufacture of multi-scale and complex flexible thermoelectric devices while reducing costs, enabling them to be integrated into emerging electronic systems as sustainable power sources.

Published
2024
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3. Giotto: a toolbox for integrative analysis and visualization of spatial expression data

Author

Ruben Dries, Qian Zhu, Rui Dong, Chee-Huat Linus Eng, Huipeng Li, Kan Liu, Yuntian Fu, Tianxiao Zhao, Arpan Sarkar, Feng Bao, Rani E. George, Nico Pierson, Long Cai, and Guo-Cheng Yuan

Subjects
Biology (General), QH301-705.5, Genetics, QH426-470
Abstract

Abstract Spatial transcriptomic and proteomic technologies have provided new opportunities to investigate cells in their native microenvironment. Here we present Giotto, a comprehensive and open-source toolbox for spatial data analysis and visualization. The analysis module provides end-to-end analysis by implementing a wide range of algorithms for characterizing tissue composition, spatial expression patterns, and cellular interactions. Furthermore, single-cell RNAseq data can be integrated for spatial cell-type enrichment analysis. The visualization module allows users to interactively visualize analysis outputs and imaging features. To demonstrate its general applicability, we apply Giotto to a wide range of datasets encompassing diverse technologies and platforms.

Published
2021
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4. High-efficiency and reliable same-parent thermoelectric modules using Mg3Sb2-based compounds

Author

Meng Jiang, Yuntian Fu, Qihao Zhang, Zhongliang Hu, Aibin Huang, Shuling Wang, Lianjun Wang, and Wan Jiang

Subjects
Multidisciplinary
Abstract

Thermoelectric modules can convert waste heat directly into useful electricity, providing a clean and sustainable way to use fossil energy more efficiently. Mg3Sb2-based alloys have recently attracted considerable interest from the thermoelectric community due to their nontoxic nature, abundance of constituent elements and excellent mechanical and thermoelectric properties. However, robust modules based on Mg3Sb2 have progressed less rapidly. Here, we develop multiple-pair thermoelectric modules consisting of both n-type and p-type Mg3Sb2-based alloys. Thermoelectric legs based on the same parent fit into each other in terms of thermomechanical properties, facilitating module fabrication and ensuring low thermal stress. By adopting a suitable diffusion barrier layer and developing a new joining technique, an integrated all-Mg3Sb2-based module demonstrates a high efficiency of 7.5% at a temperature difference of 380 K, exceeding the state-of-the-art same-parent thermoelectric modules. Moreover, the efficiency remains stable during 150 thermal cycling shocks (∼225 h), demonstrating excellent module reliability.

Published
2023

5. Single cell and spatial alternative splicing analysis with long read sequencing

Author

Nancy Zhang, Yuntian Fu, Heonseok Kim, Jenea Adams, Susan M Grimes, Sijia Huang, Billy Lau, Anuja Sathe, Paul Hess, and Hanlee Ji

Abstract

Long-read sequencing has become a powerful tool for alternative splicing analysis. However, technical and computational challenges have limited our ability to explore alternative splicing at single cell and spatial resolution. The higher sequencing error of long reads, especially high indel rates, have limited the accuracy of cell barcode and unique molecular identifier (UMI) recovery. Read truncation and mapping errors, the latter exacerbated by the higher sequencing error rates, can cause the false detection of spurious new isoforms. Downstream, there is yet no rigorous statistical framework to quantify splicing variation within and between cells/spots. In light of these challenges, we developed Longcell, a statistical framework and computational pipeline for accurate isoform quantification for single cell and spatial spot barcoded long read sequencing data. Longcell performs computationally efficient cell/spot barcode extraction, UMI recovery, and UMI-based truncation- and mapping-error correction. Through a statistical model that accounts for varying read coverage across cells/spots, Longcell rigorously quantifies the level of inter-cell/spot versus intra-cell/ spot diversity in exon-usage and detects changes in splicing distributions between cell populations. Applying Longcell to single cell long-read data from multiple contexts, we found that intra-cell splicing heterogeneity, where multiple isoforms co-exist within the same cell, is ubiquitous for highly expressed genes. On matched single cell and Visium long read sequencing for a tissue of colorectal cancer metastasis to the liver, Longcell found concordant signals between the two data modalities. Finally, on a perturbation experiment for 9 splicing factors, Longcell identified regulatory targets that are validated by targeted sequencing.

Published
2023

6. Mg3(Bi,Sb)2-based thermoelectric modules for efficient and reliable waste-heat utilization up to 750 K

Author

Yuntian Fu, Qihao Zhang, Zhongliang Hu, Meng Jiang, Aibin Huang, Xin Ai, Shun Wan, Heiko Reith, Lianjun Wang, Kornelius Nielsch, and Wan Jiang

Subjects
Nuclear Energy and Engineering, Renewable Energy, Sustainability and the Environment, Environmental Chemistry, Pollution
Abstract

This work develops an efficient, environmentally friendly and cost-effective thermoelectric module for mid-temperature waste heat recovery by using n-type Se-doped Mg3(Bi,Sb)2 and p-type CoSb3-based skutterudite.

Published
2022

7. Giotto: a toolbox for integrative analysis and visualization of spatial expression data

Author

Rani E. George, Long Cai, Kan Liu, Ruben Dries, Arpan Sarkar, Rui Dong, Chee-Huat Linus Eng, Feng Bao, Guo-Cheng Yuan, Huipeng Li, Qian Zhu, Tianxiao Zhao, Nico Pierson, and Yuntian Fu

Subjects
Data Analysis, lcsh:QH426-470, Computer science, Method, Biology, computer.software_genre, Data visualization, Image Processing, Computer-Assisted, lcsh:QH301-705.5, Spatial analysis, In Situ Hybridization, Spatial Analysis, business.industry, Extramural, Gene Expression Profiling, Computational Biology, Immunohistochemistry, Toolbox, Expression (mathematics), Visualization, lcsh:Genetics, lcsh:Biology (General), Organ Specificity, Expression data, Data mining, business, Transcriptome, Tissue composition, computer, Software
Abstract

The rapid development of novel spatial transcriptomic and proteomic technologies has provided new opportunities to investigate the interactions between cells and their native microenvironment. However, effective use of such technologies requires the development of innovative computational tools that are easily accessible and intuitive to use. Here we present Giotto, a comprehensive, flexible, robust, and open-source toolbox for spatial transcriptomic and proteomic data analysis and visualization. The data analysis module provides end-to-end analysis by implementing a wide range of algorithms for characterizing cell-type distribution, spatially coherent gene expression patterns, and interactions between each cell and its surrounding neighbors. Furthermore, Giotto can also be used in conjunction with external single-cell RNAseq data to infer the spatial enrichment of cell types from data that do not have single-cell resolution. The data visualization module allows users to interactively visualize the gene expression data, analysis outputs, and additional imaging features, thereby providing a user-friendly workspace to explore multiple modalities of information for biological investigation. These two modules can be used iteratively for refined analysis and hypothesis development. We applied Giotto to a wide range of public datasets encompassing diverse technologies and platforms, thereby demonstrating its general applicability for spatial transcriptomic and proteomic data analysis and visualization.

Published
2021

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