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1. Development of genetic tools for heterologous protein expression in a pentose‐utilizing environmental isolate of Pseudomonas putida

Author

Gauttam, Rahul, Eng, Thomas, Zhao, Zhiying, Rana, Qurrat ul ain, Simmons, Blake A, Yoshikuni, Yasuo, Mukhopadhyay, Aindrila, and Singer, Steven W

Subjects
Biological Sciences, Industrial Biotechnology, Biotechnology, Genetics, Pseudomonas putida, Biosynthetic Pathways, Sugars, Microbiology, Industrial biotechnology
Abstract

Pseudomonas putida has emerged as a promising host for the conversion of biomass-derived sugars and aromatic intermediates into commercially relevant biofuels and bioproducts. Most of the strain development studies previously published have focused on P. putida KT2440, which has been engineered to produce a variety of non-native bioproducts. However, P. putida is not capable of metabolizing pentose sugars, which can constitute up to 25% of biomass hydrolysates. Related P. putida isolates that metabolize a larger fraction of biomass-derived carbon may be attractive as complementary hosts to P. putida KT2440. Here we describe genetic tool development for P. putida M2, a soil isolate that can metabolize pentose sugars. The functionality of five inducible promoter systems and 12 ribosome binding sites was assessed to regulate gene expression. The utility of these expression systems was confirmed by the production of indigoidine from C6 and C5 sugars. Chromosomal integration and expression of non-native genes was achieved by using chassis-independent recombinase-assisted genome engineering (CRAGE) for single-step gene integration of biosynthetic pathways directly into the genome of P. putida M2. These genetic tools provide a foundation to develop hosts complementary to P. putida KT2440 and expand the ability of this versatile microbial group to convert biomass to bioproducts.

Published
2023

4. Expanding the genomic encyclopedia of Actinobacteria with 824 isolate reference genomes.

Author

Seshadri, Rekha, Roux, Simon, Huber, Katharina J, Wu, Dongying, Yu, Sora, Udwary, Dan, Call, Lee, Nayfach, Stephen, Hahnke, Richard L, Pukall, Rüdiger, White, James R, Varghese, Neha J, Webb, Cody, Palaniappan, Krishnaveni, Reimer, Lorenz C, Sardà, Joaquim, Bertsch, Jonathon, Mukherjee, Supratim, Reddy, TBK, Hajek, Patrick P, Huntemann, Marcel, Chen, I-Min A, Spunde, Alex, Clum, Alicia, Shapiro, Nicole, Wu, Zong-Yen, Zhao, Zhiying, Zhou, Yuguang, Evtushenko, Lyudmila, Thijs, Sofie, Stevens, Vincent, Eloe-Fadrosh, Emiley A, Mouncey, Nigel J, Yoshikuni, Yasuo, Whitman, William B, Klenk, Hans-Peter, Woyke, Tanja, Göker, Markus, Kyrpides, Nikos C, and Ivanova, Natalia N

Subjects
actinobacteria, comparative genomics, ecology, evolution, metagenomics, microbiology, mycobacteria, secondary metabolites, Infectious Diseases, Genetics, Biotechnology, Vaccine Related, Rare Diseases, Human Genome, Infection, Good Health and Well Being
Abstract

The phylum Actinobacteria includes important human pathogens like Mycobacterium tuberculosis and Corynebacterium diphtheriae and renowned producers of secondary metabolites of commercial interest, yet only a small part of its diversity is represented by sequenced genomes. Here, we present 824 actinobacterial isolate genomes in the context of a phylum-wide analysis of 6,700 genomes including public isolates and metagenome-assembled genomes (MAGs). We estimate that only 30%-50% of projected actinobacterial phylogenetic diversity possesses genomic representation via isolates and MAGs. A comparison of gene functions reveals novel determinants of host-microbe interaction as well as environment-specific adaptations such as potential antimicrobial peptides. We identify plasmids and prophages across isolates and uncover extensive prophage diversity structured mainly by host taxonomy. Analysis of >80,000 biosynthetic gene clusters reveals that horizontal gene transfer and gene loss shape secondary metabolite repertoire across taxa. Our observations illustrate the essential role of and need for high-quality isolate genome sequences.

Published
2022

5. Chromosomal integration of complex DNA constructs using CRAGE and CRAGE-Duet systems

Author

Zhao, Zhiying, Cheng, Jan-Fang, and Yoshikuni, Yasuo

Subjects
Biological Sciences, Genetics, Human Genome, Generic health relevance, Bacteria, DNA, Genome, Bacterial, Recombinases, Biotechnology and bioengineering, CRISPR, Microbiology
Abstract

Our recent development of the CRAGE (chassis-independent recombinase-assisted genome engineering) system enables single-step integration of large, complex DNA constructs directly into bacteria genomes across multiple phyla. This protocol describes the details of the experimental design and procedures of CRAGE and extended CRAGE-Duet systems. It also describes a strategy that combines CRISPR with CRAGE, which allows implementation of CRISPR-Cas9, CRISPRa, and CRISPRi in diverse bacteria, overcoming major limitations to broaden the application of CRISPR in non-model bacterial genome engineering. For complete details on the use and execution of this protocol, please refer to Wang et al. (2019), Wang et al. (2020), and Liu et al. (2020).

Published
2022

14. Effect of multidisciplinary team model on prevention of PICC-associated thrombosis in cancer patients (多学科协作模式在肿瘤患者经外周静脉穿刺中心静脉置管相关性血栓预防中的应用研究)

Author

GAN Jiemei (甘洁梅), CHEN Guolian (陈国连), and ZHAO Zhiying (赵志莹)

Subjects
multidisciplinary team model, cancer, peripherally inserted central catheter, catheter-associated thrombus, disease awareness, 多学科协作, 肿瘤, 经外周静脉穿刺中心静脉置管, 导管相关性血栓, 疾病认知, Nursing, RT1-120
Abstract

Objective Methods non-synchronous control study including 162 patients were conducted. Patients were divided into control group and intervention group according to the time of admission. The control group (n=81) was given routine prevention program, while the intervention group was intervened by multidisciplinary cooperation mode, and the intervention program was developed to prevent thrombosis. The incidence of PICC-associated thrombosis, knowledge about thrombosis prevention and level of satisfaction were measured and compared between two groups. Results The incidence of thrombosis in the intervention group was lower than that in the control group(P<0. 05). Scores of questionnaire on thrombosis knowledge and satisfaction in the intervention group were significantly higher than those in the control group(P<0. 01). Conclusion By standardizing the procedure of diagnosis, treatment and nursing of thrombosis, multidisciplinary team model is aimed to reduce the incidence of thrombosis and improve the thrombosis-related awareness of inpatients with PICC placement. A To investigate the application effect of multidisciplinary team model in preventing peripherally inserted central catheter (PICC)-associated thrombus in cancer patients. (目的 探讨运用多学科协作模式预防肿瘤患者经外周静脉穿刺中心静脉置管(PICC)相关性血栓的效果。方法 本研究为非同期对照研究, 按照入院时间将162名患者分为对照组与观察组, 各81例。对照组采用常规预防血栓方案, 观察组采用多学科协作模式进行干预, 制定干预方案对患者实施血栓预防。对比两组血栓发生率, 采用问卷调查两组患者血栓知识和满意度。结果 观察组PICC相关性血栓发生率低于对照组, 差异有统计学意义(P<0. 05)。观察组血栓知识得分、满意度得分均高于对照组, 差异有统计学意义(P<0. 01)。结论 多学科协作模式能使血栓诊疗及护理更规范, 有效降低PICC带管患者血栓发生率, 提高患者对血栓预防的认知。)

Published
2023
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15. Development of platforms for functional characterization and production of phenazines using a multi-chassis approach via CRAGE

Author

Ke, Jing, Zhao, Zhiying, Coates, Cameron R, Hadjithomas, Michalis, Kuftin, Andrea, Louie, Katherine, Weller, David, Thomashow, Linda, Mouncey, Nigel J, Northen, Trent R, and Yoshikuni, Yasuo

Subjects
Biological Sciences, Industrial Biotechnology, Emerging Infectious Diseases, Biotechnology, Infectious Diseases, Biodefense, Multigene Family, Phenazines, Recombinases, CRAGE, Chassis-Independent Recombinase-Assisted, Genome Engineering, Natural Products, Secondary metabolites, Multi-Chassis Engineering, Chassis-Independent Recombinase-Assisted Genome Engineering, Biochemistry and cell biology, Industrial biotechnology
Abstract

Phenazines (Phzs), a family of chemicals with a phenazine backbone, are secondary metabolites with diverse properties such as antibacterial, anti-fungal, or anticancer activity. The core derivatives of phenazine, phenazine-1-carboxylic acid (PCA) and phenazine-1,6-dicarboxylic acid (PDC), are themselves precursors for various other derivatives. Recent advances in genome mining tools have enabled researchers to identify many biosynthetic gene clusters (BGCs) that might produce novel Phzs. To characterize the function of these BGCs efficiently, we performed modular construct assembly and subsequent multi-chassis heterologous expression using chassis-independent recombinase-assisted genome engineering (CRAGE). CRAGE allowed rapid integration of a PCA BGC into 23 diverse γ-proteobacteria species and allowed us to identify top PCA producers. We then used the top five chassis hosts to express four partially refactored PDC BGCs. A few of these platforms produced high levels of PDC. Specifically, Xenorhabdus doucetiae and Pseudomonas simiae produced PDC at a titer of 293 mg/L and 373 mg/L, respectively, in minimal media. These titers are significantly higher than those previously reported. Furthermore, selectivity toward PDC production over PCA production was improved by up to 9-fold. The results show that these strains are promising chassis for production of PCA, PDC, and their derivatives, as well as for function characterization of Phz BGCs identified via bioinformatics mining.

Published
2022

17. Financial performance of China's listed firms in presence of coronavirus: Evidence from corporate culture and corporate social responsibility

Author

Zheng, Fengjiao, Zhao, Zhiying, Sun, Yunpeng, and Khan, Yousaf Ali

Subjects
Publicly held corporations -- Finance -- Social aspects, Epidemics -- Economic aspects -- China, Corporate social responsibility -- Economic aspects -- Health aspects, Corporate culture -- Economic aspects -- Health aspects, Company financing, Psychology and mental health
Abstract

Motivated from the shortage of the existing research studies on impacts of dangerously contagious diseases on firms' financial performance, this study sheds light on the impacts of Coronavirus (Covid-19) outbreak on financial performance upon on the quarterly data of 126 Chinese listed firms across 16 industries. Overall, the Covid-19 outbreak reduced Chinese listed firms' financial performance proxied by the revenue growth rate, ROA, ROE, and asset turnover. This outbreak's negative effects on Chinese firms' profitability were much smaller than that on their revenue growth rates. While this outbreak's negative effects on financial performance of Chinese listed firms were bigger for those that were seriously affected by this pandemic like airlines, travel, and entertainment (ATE), this pandemic's effects were positive for the medicine industry. In the meanwhile, Chinese listed firms that located in high-risk regions suffered a bigger financial loss during the outbreak, and especially there was a strong Hubei effect. The corporate culture and CSR moderated the inverse relationship between this outbreak and Chinese firms' financial performance. Findings of this study contribute to enrich the existing literature on impacts of the Covid-19 outbreak on firms' financial performance worldwide and suggest helpful practical and theoretical implications., Author(s): Fengjiao Zheng [sup.1] , Zhiying Zhao [sup.2] , Yunpeng Sun [sup.3] , Yousaf Ali Khan [sup.4] [sup.5] Author Affiliations: (1) grid.5475.3, 0000 0004 0407 4824, Centre for environment and [...]

Published
2023
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19. Microfabrication of a Chamber for High-Resolution, In Situ Imaging of the Whole Root for Plant-Microbe Interactions.

Author

Jabusch, Lauren K, Kim, Peter W, Chiniquy, Dawn, Zhao, Zhiying, Wang, Bing, Bowen, Benjamin, Kang, Ashley J, Yoshikuni, Yasuo, Deutschbauer, Adam M, Singh, Anup K, and Northen, Trent R

Subjects
GFP-like proteins, fluorescently-tagged bacteria, imaging, microfabrication, microscopy, plant–microbe interactions, rhizosphere, plant-microbe interactions, Chemical Physics, Other Chemical Sciences, Genetics, Other Biological Sciences
Abstract

Fabricated ecosystems (EcoFABs) offer an innovative approach to in situ examination of microbial establishment patterns around plant roots using nondestructive, high-resolution microscopy. Previously high-resolution imaging was challenging because the roots were not constrained to a fixed distance from the objective. Here, we describe a new 'Imaging EcoFAB' and the use of this device to image the entire root system of growing Brachypodium distachyon at high resolutions (20×, 40×) over a 3-week period. The device is capable of investigating root-microbe interactions of multimember communities. We examined nine strains of Pseudomonas simiae with different fluorescent constructs to B. distachyon and individual cells on root hairs were visible. Succession in the rhizosphere using two different strains of P. simiae was examined, where the second addition was shown to be able to establish in the root tissue. The device was suitable for imaging with different solid media at high magnification, allowing for the imaging of fungal establishment in the rhizosphere. Overall, the Imaging EcoFAB could improve our ability to investigate the spatiotemporal dynamics of the rhizosphere, including studies of fluorescently-tagged, multimember, synthetic communities.

Published
2021

22. Effectiveness and safety of Xingbei Zhike granules in patients with postinfectious cough: A multicenter, randomized, double-blinded, placebo-controlled trial

Author

Chi, Yihe, Lin, Lin, Guo, Xin, Xiao, Jingmin, Fan, Feiting, Yu, Changli, Xue, Hanrong, Li, Suyun, Guo, Dongwei, Liu, Lei, Wang, Yaoyong, Ma, Xiao, Pang, Jianguo, Wang, Jincheng, Zhao, Zhiying, Zhao, Xianping, Wang, Guangen, Gu, Dongwei, Zhen, Hui, Chen, Hongping, Ding, Junping, Zhou, Mingjuan, Wu, Zhenhu, Han, Yun, Chen, Yuanbin, and Wu, Lei

Published
2023
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31. CRAGE-Duet Facilitates Modular Assembly of Biological Systems for Studying Plant–Microbe Interactions

Author

Wang, Bing, Zhao, Zhiying, Jabusch, Lauren K, Chiniquy, Dawn M, Ono, Koyo, Conway, Jonathan M, Zhang, Zheyun, Wang, Gaoyan, Robinson, David, Cheng, Jan-Fang, Dangl, Jeffery L, Northen, Trent R, and Yoshikuni, Yasuo

Subjects
Biological Sciences, Genetics, Brachypodium, Genetic Engineering, Luminescent Proteins, Microscopy, Fluorescence, Plant Roots, Plants, Genetically Modified, Plasmids, Pseudomonas, Recombinases, Recombination, Genetic, Rhizosphere, bacterial strain engineering, genome engineering, genome editing, CRAGE, Cre-lox recombination, fluorescent protein, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Biomedical Engineering, Biochemistry and cell biology, Bioinformatics and computational biology
Abstract

Developing sustainable agricultural practices will require increasing our understanding of plant-microbe interactions. To study these interactions, new genetic tools for manipulating nonmodel microbes will be needed. To help meet this need, we recently reported development of chassis-independent recombinase-assisted genome engineering (CRAGE). CRAGE relies on cassette exchange between two pairs of mutually exclusive lox sites and allows direct, single-step chromosomal integration of large, complex gene constructs into diverse bacterial species. We then extended CRAGE by introducing a third mutually exclusive lox site, creating CRAGE-Duet, which allows modular integration of two constructs. CRAGE-Duet offers advantages over CRAGE, especially when a cumbersome recloning step is required to build single-integration constructs. To demonstrate the utility of CRAGE-Duet, we created a set of strains from the plant-growth-promoting rhizobacterium Pseudomonas simiae WCS417r that expressed various fluorescence marker genes. We visualized these strains simultaneously under a confocal microscope, demonstrating the usefulness of CRAGE-Duet for creating biological systems to study plant-microbe interactions.

Published
2020

32. CRAGE-mediated insertion of fluorescent chromosomal markers for accurate and scalable measurement of co-culture dynamics in Escherichia coli

Author

Noonan, Avery JC, Qiu, Yilin, Ho, Joe CH, Ocampo, Jewel, Vreugdenhil, KA, Marr, R Alexander, Zhao, Zhiying, Yoshikuni, Yasuo, and Hallam, Steven J

Subjects
Biochemistry and Cell Biology, Biological Sciences, Industrial Biotechnology, Biotechnology, Bioengineering, CRAGE, biosensors, microbial consortia, co-culture dynamics, functional screening, Biochemistry and cell biology, Applied mathematics
Abstract

Monitoring population dynamics in co-culture is necessary in engineering microbial consortia involved in distributed metabolic processes or biosensing applications. However, it remains difficult to measure strain-specific growth dynamics in high-throughput formats. This is especially vexing in plate-based functional screens leveraging whole-cell biosensors to detect specific metabolic signals. Here, we develop an experimental high-throughput co-culture system to measure and model the relationship between fluorescence and cell abundance, combining chassis-independent recombinase-assisted genome engineering (CRAGE) and whole-cell biosensing with a PemrR-green fluorescent protein (GFP) monoaromatic reporter used in plate-based functional screening. CRAGE was used to construct Escherichia coli EPI300 strains constitutively expressing red fluorescent protein (RFP) and the relationship between RFP expression and optical density (OD600) was determined throughout the EPI300 growth cycle. A linear equation describing the increase of normalized RFP fluorescence during deceleration phase was derived and used to predict biosensor strain dynamics in co-culture. Measured and predicted values were compared using flow cytometric detection methods. Induction of the biosensor lead to increased GFP fluorescence normalized to biosensor cell abundance, as expected, but a significant decrease in relative abundance of the biosensor strain in co-culture and a decrease in bulk GFP fluorescence. Taken together, these results highlight sensitivity of population dynamics to variations in metabolic activity in co-culture and the potential effect of these dynamics on the performance of functional screens in plate-based formats. The engineered strains and model used to evaluate these dynamics provide a framework for optimizing growth of synthetic co-cultures used in screening, testing and pathway engineering applications.

Published
2020

33. CRAGE enables rapid activation of biosynthetic gene clusters in undomesticated bacteria.

Author

Wang, Gaoyan, Zhao, Zhiying, Ke, Jing, Engel, Yvonne, Shi, Yi-Ming, Robinson, David, Bingol, Kerem, Zhang, Zheyun, Bowen, Benjamin, Louie, Katherine, Wang, Bing, Evans, Robert, Miyamoto, Yu, Cheng, Kelly, Kosina, Suzanne, De Raad, Markus, Silva, Leslie, Luhrs, Alicia, Lubbe, Andrea, Hoyt, David W, Francavilla, Charles, Otani, Hiroshi, Deutsch, Samuel, Washton, Nancy M, Rubin, Edward M, Mouncey, Nigel J, Visel, Axel, Northen, Trent, Cheng, Jan-Fang, Bode, Helge B, and Yoshikuni, Yasuo

Subjects
Bacteria, Photorhabdus, Polyketide Synthases, Peptide Synthases, Recombinases, Genetic Engineering, Gene Expression Regulation, Bacterial, Genes, Bacterial, Genome, Bacterial, Multigene Family, Biosynthetic Pathways, Secondary Metabolism, Gene Expression Regulation, Bacterial, Genes, Genome, Microbiology, Medical Microbiology
Abstract

It is generally believed that exchange of secondary metabolite biosynthetic gene clusters (BGCs) among closely related bacteria is an important driver of BGC evolution and diversification. Applying this idea may help researchers efficiently connect many BGCs to their products and characterize the products' roles in various environments. However, existing genetic tools support only a small fraction of these efforts. Here, we present the development of chassis-independent recombinase-assisted genome engineering (CRAGE), which enables single-step integration of large, complex BGC constructs directly into the chromosomes of diverse bacteria with high accuracy and efficiency. To demonstrate the efficacy of CRAGE, we expressed three known and six previously identified but experimentally elusive non-ribosomal peptide synthetase (NRPS) and NRPS-polyketide synthase (PKS) hybrid BGCs from Photorhabdus luminescens in 25 diverse γ-Proteobacteria species. Successful activation of six BGCs identified 22 products for which diversity and yield were greater when the BGCs were expressed in strains closely related to the native strain than when they were expressed in either native or more distantly related strains. Activation of these BGCs demonstrates the feasibility of exploiting their underlying catalytic activity and plasticity, and provides evidence that systematic approaches based on CRAGE will be useful for discovering and identifying previously uncharacterized metabolites.

Published
2019

38. No Pie in the Sky: The Digital Currency Fraud Website Detection

Author

Ou, Haoran, Guo, Yongyan, Huang, Chaoyi, Zhao, Zhiying, Guo, Wenbo, Fang, Yong, Huang, Cheng, Akan, Ozgur, Editorial Board Member, Bellavista, Paolo, Editorial Board Member, Cao, Jiannong, Editorial Board Member, Coulson, Geoffrey, Editorial Board Member, Dressler, Falko, Editorial Board Member, Ferrari, Domenico, Editorial Board Member, Gerla, Mario, Editorial Board Member, Kobayashi, Hisashi, Editorial Board Member, Palazzo, Sergio, Editorial Board Member, Sahni, Sartaj, Editorial Board Member, Shen, Xuemin, Editorial Board Member, Stan, Mircea, Editorial Board Member, Jia, Xiaohua, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Gladyshev, Pavel, editor, Goel, Sanjay, editor, James, Joshua, editor, Markowsky, George, editor, and Johnson, Daryl, editor

Published
2022
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43. Ferroelectric switching of a two-dimensional metal

Author

Fei, Zaiyao, Zhao, Wenjin, Palomaki, Tauno A., Sun, Bosong, Miller, Moira K., Zhao, Zhiying, Yan, Jiaqiang, Xu, Xiaodong, and Cobden, David H.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A ferroelectric is a material with a polar structure whose polarity can be reversed by applying an electric field. In metals, the itinerant electrons tend to screen electrostatic forces between ions, helping to explain why polar metals are very rare. Screening also excludes external electric fields, apparently ruling out the possibility of polarity reversal and thus ferroelectric switching. In principle, however, a thin enough polar metal could be penetrated by an electric field sufficiently to be switched. Here we show that the layered topological semimetal WTe2 provides the first embodiment of this principle. Although monolayer WTe2 is centrosymmetric and thus nonpolar, the stacked bulk structure is polar. We find that two- or three-layer WTe2 exhibits a spontaneous out-of-plane electric polarization which can be switched using gate electrodes. We directly detect and quantify the polarization using graphene as an electric field sensor. Moreover, the polarization states can be differentiated by conductivity, and the carrier density can be varied to modify the properties. The critical temperature is above 350 K, and even when WTe2 is sandwiched in graphene it retains its switching capability at room temperature, demonstrating a robustness suitable for applications in combination with other two-dimensional materials.

Published
2018

44. Surface Superconductivity in the type II Weyl Semimetal TaIrTe4

Author

Xing, Ying, Shao, Zhibin, Ge, Jun, Luo, Jiawei, Wang, Jinhua, Zhu, Zengwei, Liu, Jun, Wang, Yong, Zhao, Zhiying, Yan, Jiaqiang, Mandrus, David, Yan, Binghai, Liu, Xiong-Jun, Pan, Minghu, and Wang, Jian

Subjects
Condensed Matter - Superconductivity
Abstract

The search for unconventional superconductivity in Weyl semimetal materials is currently an exciting pursuit, since such superconducting phases could potentially be topologically nontrivial and host exotic Majorana modes. The layered material TaIrTe4 is a newly predicted time-reversal invariant type II Weyl semimetal with minimum number of Weyl points. Here, we report the discovery of surface superconductivity in Weyl semimetal TaIrTe4. Our scanning tunneling microscopy/spectroscopy (STM/S) visualizes Fermi arc surface states of TaIrTe4 that are consistent with the previous angle-resolved photoemission spectroscopy (ARPES) results. By a systematic study based on STS at ultralow temperature, we observe uniform superconducting gaps on the sample surface. The superconductivity is further confirmed by electrical transport measurements at ultralow temperature, with an onset transition temperature (Tc) up to 1.54 K being observed. The normalized upper critical field h*(T/Tc) behavior and the stability of the superconductivity against the ferromagnet indicate that the discovered superconductivity is unconventional with the p-wave pairing. The systematic STS, thickness and angular dependent transport measurements reveal that the detected superconductivity is quasi-one-dimensional (quasi-1D) and occurs in the surface states. The discovery of the surface superconductivity in TaIrTe4 provides a new novel platform to explore topological superconductivity and Majorana modes.

Published
2018
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