杨大驰

师资队伍

  • 杨大驰
    性别 : 所属部门 : 电子科学与工程系
    职称 : 教授 学历 : 博士
    行政职务 : 所学专业 : 材料物理与化学
    办公电话 :
    邮箱 : yangdachi@nankai.edu.cn
    研究方向 : 新型传感纳米材料;智能传感技术与应用

研究简介

l 科学研究:着眼本领域国际科技前沿,面向国家和产业需求,专注于氢敏传感、低温传感、气体/化学/生物传感、呼吸传感科学研究,发展具有特色的智能传感技术。

l 应用领域:应用于氢能源和航空航天安全预警、人体重大疾病的早期诊断、食致病原菌相关食品安全监测与消杀、社会安全和产业生成安全等领域。

l 人才培养:指导学生参加国内外学术交流和科研实践活动,在学习期间获“三好学生”、“优秀学生”、“优秀共产党员”和“优秀学生干部”等荣誉,获国家奖学金,获南开功能奖学金等奖项。

工作经历

2014年5月-至今 南开大学 电子信息与光学工程学院,教师/教授

2013年8月-2014年4月 新加坡 南洋理工大学,博士后

2009年7月-2013年5月 美国 波多黎各大学,博士后


教育背景

2004年9月-2008年6月 中国科学院合肥物质科学研究院,博士(硕/,师孟国文研究员

2003年9月-2004年6月 中国科学技术大学,物理系,基础课学习

1998年9月-2002年6月 郑州大学,材料科学与工程系,学士


科研项目

国家自然科学基金,面上项目主持


申请/授权专利

[13]杨大驰张翼,一种基于人体呼出气的早期肺部癌变检测装置及方法

[12]杨大驰,赵新花,一种通过代谢生物标志物检测单增李斯特菌的比色传感试纸、制备方法及应用

[11]杨大驰,邢霞霞,一种冰箱中食品腐坏气体的检测、预警和消杀装置及方法

[10]杨大驰赵新花,一种表面富集孔洞和缺陷氧的钴氧化物/钴基普鲁士蓝类似物空心六面体担载多糖复合材料、制备方法及应用;

[9]杨大驰,杜玲玲,一种三维层状、多孔结构金属纳米片/石墨烯复合物的水凝胶和气凝胶、制备方法与应用;

[8]杨大驰,王晨,一种富集缺陷氧的氧化锌担载异类金属氧化物分支纳米结构、制备方法及其应用

[7]杨大驰,邢霞霞,一种担载金属氧化物、导电高分子和二维纳米材料的柔性传感织物、制备方法及其应用

[6]杨大驰,郑世政,核壳结构的二硼化钛表面包覆功能膜材料及其制备方法与应用

[5]杨大驰,郑立军,一种具有多重分枝状的纳米合金及其制备方法

[4]杨大驰,郑世政,杜玲玲,三氧化钼(钨)调控的二元金属磷化物与制备方法和应用

[3]杨大驰,常戎,一种将金属杂化纳米线转化为纳米球的方法及应用

[2]王成文,杨大驰,一种簇状氢氧化钴纳米片及其制备方法

[1]郑立军,杨大驰,一种柏树叶状铂铜超晶格纳米结构的制备方法


发表学术论文部分第一/通讯作者论文

[45] Xinhua Zhao, Xiaxia Xing, Zhenxu Li, Xiaoyan Lang, Xiaoyu Chen, Yi Zhang, and Dachi Yang,* Cyanogel-Transformed Porous Palladium and Iron Framework Intermixed with rGO for Wearable Hydrogen Sensing, Small 2024, 2408117 (1-9).

[44] Xiaoyu Chen, # Chen Wang, # Tingting Wang, # XiaXia Xing, Zhenxu Li, Yingying Tian, Xiaoyan Lang, Xinhua Zhao, Dachi Yang, * Cu3(HHTP)2 decorated over rGO nanocomposites for flexible NH3 and H2S dual sensing at room temperature, Chemical Engineering Journal 2024, 499, 155986 (1-8).

[43] Xiaoyan Lang, Zhu Zhang, Xiaxia Xing, Xinhua Zhao, Zhenxu Li, Xiaoyu Chen, Yi Zhang, Dachi Yang, * Metal-organic framework derived cobalt and iron oxide nanosheets for ppb-concentration and highly selective hydrogen sulfide sensing, Applied Surface Science 2025, 680(30), 161289 (1-8).

[42] Zhenxu Li, Lingling Du, Xiaxia Xing, Xinhua Zhao, Xiaoyu Chen, Xiaohu Huang, and Dachi Yang, * Surface Engineering on Palladium and Zinc Nanowires for Hydrogen Sensing Working at ≈190–388 K Temperature Range, Advanced Sensor Research 2024, 3(8), 2400011 (1-7).

[41] Xinhua Zhao, Lingling Du, Xiaxia Xing, Zhenxu Li, Yingying Tian, Xiaoyu Chen, Xiaoyan Lang, Huigang Liu* and Dachi Yang,* Decorating Pd-Au Nanodots around Porous In2O3 Nanocubes for Tolerant H2 Sensing against Switching Response and H2S Poisoning, Small 2024, 20 (32), 202311840 (1-9).

[40] Xiaoyan Lang, Xiaxia Xing, Xinhua Zhao, Lingling Du, Yingying Tian, Zhenxu Li, Xiaoyu Chen, Heliang Fan and Dachi Yang, * NixCu3-x(HHTP)2 Decorated Poly-pyrrole Porous Nanocomposites for Highly Selective and Stable Hydrogen Sulfide Sensing at Room Temperature, Sensors and Actuators B: Chemical 2024, 401, 135020.

[39] Xiaxia Xing, Xiaoyu Chen, Zhenxu Li, Xinhua Zhao, Yingying Tian, Xiaoyan Lang and Dachi Yang, * Polyethylene Imine Functionalized Porous Carbon Framework for Selective Nitrogen Dioxide Sensing with Smartphone Communication, Chinese Chemical Letters 2023, 359, 109203.

[38] Xiaxia Xing, Xinhua Zhao, Zhenxu Li, Lingling Du, Chen Wang, Dongliang Feng, Dongsheng Geng, Robert Bogdanowicz, and Dachi Yang, * Oxygen Vacancy-enriched V2O5·nH2O Nanofibers Ink for Universal Substrates-tolerant and Multi Means-integratable NH3 Sensing, Chemical Engineering Journal 2023, 478, 147233 (1-10).

[37] Yingying Tian #, Xiaoyu Chen #, Xiaxia Xing, Zhenxu Li, Xinhua Zhao, Xiaoyan Lang, Dachi Yang, * HHTP Surface-functionalized Copper Sulfide Hollow Nanocubes with Sensitivity-boosted and High-concentration Ammonia Sensing, Applied Surface Science 2024, 642, 158581 (1-8).

[36] Xiaoyu Chen, Xiaxia Xing, Zhenxu Li, Xinhua Zhao, Yingying Tian, Xiaoyan Lang, Dachi Yang, * Three-dimensional Porous Carbon Framework Coated with Polyaniline for Highly Stable and Selective Ammonia Sensing, Sensors and Actuators B: Chemical 2023, 395, 134539

[35] Xiaxia Xing, Zhenxu Li, Xinhua Zhao, Yingying Tian, Xiaoyu Chen, Xiaoyan Lang and Dachi Yang,* Two-dimensional Aluminum Oxide Nanosheets Decorated with Palladium Oxide Nanodots for Highly Stable and Selective Hydrogen Sensing, Small 2023, 19 (28), 2208026.

[34] Yingying Tian, Xiaxia Xing, Zhenxu Li, Xiaoyan Lang, Xiaoyu Chen, Xinhua Zhao and Dachi Yang, * Palladium and Cerium Oxide Hollow Strings of Pearls for Stable and Wide-Concentration-Range Hydrogen Sensing at Room Temperature, Sensors and Actuators B: Chemical 2023, 388, 133852

[33] Xinhua Zhao, Lingling Du, Xiaxia Xing, Yingying Tian, Zhenxu Li, Chen Wang, Dongliang Feng, Huigang Liu * and Dachi Yang, * Palladium and Palladium Oxide Enwrapped Iron Oxide Shell/Core Nanoparticles for Stable Detection of ppb-level Hydrogen, Chemical Engineering Journal 2023, 457, 141258 (1-8).

[32] Yingying Tian, Lingling Du, Xiaxia Xing, Chen Wang, Dongliang Feng, Zhenxu Li, and Dachi Yang, * Surface-broken palladium and palladium oxide core/shell nanowires for stable hydrogen sensing at room temperature, Sensors and Actuators B: Chemical 2023, 375, 132914

[31] Lingling Du, Xiaxia Xing, Dongliang Feng, Chen Wang, Zhenxu Li, Yingying Tian, and Dachi Yang, * Constructing Pd&PEDOT@CNTs Nanoarchitectures for Dually Detecting Hydrogen and Ammonia at Room Temperature, Sensors and Actuators B: Chemical 2023, 375, 132873.

[30] Chen Wang, Lingling Du, Xiaxia Xing, Dongliang Feng, and Dachi Yang,* Lightweight Porous Polyurethane Foam Integrated with Graphene Oxide for Flexible and High-Concentration Hydrogen Sensing, ACS Sensors 2022, 7(8), 2420-2428.

[29] Lingling Du, Dachi Yang, * Palladium Nanosheets Bunches for Stable and High-Concentration Hydrogen Sensing at Room Temperature, Applied Surface Science 2023, 607, 154992.

[28] Xiaxia Xing, Lingling Du, Chen Wang, Dongliang Feng, Guohua Liu and Dachi Yang, * ZIF-8 Micro-Polyhedron MOF-Transformed ZnO/ZnFe2O4 Nanosheets for Highly Selective Detection of ppb-level Isoprene, Sensors and Actuators B: Chemical 2022, 372, 132669.

[27] Xiaxia Xing, Zhenxu Li, Xiaoyu Chen, Lingling Du, Yingying Tian, Dongliang Feng, Chen Wang, Guohua Liu, and Dachi Yang,* Three-Dimensional Porous Carbon/Nitrogen Framework-Decorated Palladium Nanoparticles for Stable and Wide-Concentration-Range Hydrogen Sensing, ACS Applied Materials & Interfaces 2022, 14(15), 17911–17919.

[26] Lingling Du, Dongliang Feng, Xiaxia Xing, Chen Wang, Yang Gao, Shuhui Sun, * Guowen Meng, * and Dachi Yang, * Nanocomposite-Decorated Filter Paper as Twistable and Water-Tolerant Sensors for Selective Detection of 5 ppb - 60 v/v % Ammonia, ACS Sensors 2022, 7(3), 874–883.

[25] Chen Wang, # Lingling Du, # Xiaxia Xing, Dongliang Feng, Yingying Tian, Zhenxu Li and Dachi Yang, * Flexible Carbon Cloth in-situ Assembling WO3 Microsheets Bunches with Ni Dopants for Non-Enzymatic Glucose Sensing, Applied Surface Science 2022, 586, 152822.

[24] Mengmeng Pan #, Dongliang Feng #, Yu Ouyang, Dachi Yang, * Xu Yu *, Li Xu * and Itamar Willner, *MOF-Templated Synthesis of Cobalt-Doped Zinc Oxide Superparticles for Detection of the 3-Hydroxy-2-Butanone Microbial Biomarker, Sensors and Actuators B: Chemical 2022, 358, 131482.

[23] Zhengyou Zhu, # Xiaxia Xing, # Dongliang Feng, Zhenxu Li, Yingying Tian and Dachi Yang,* Highly sensitive and fast-response hydrogen sensing of WO3 nanoparticles via palladium reined spillover effect, Nanoscale 2021, 13 (29), 12669 - 12675.

[22] Xiaxia Xing, Lingling Du, Dongliang Feng, Chen Wang, Yingying Tian, Zhenxu Li, Huigang Liu and Dachi Yang, * Twistable and Tailorable V2O5/PANI/GO Nanocomposites Textile for Wearable Ammonia Sensing, Sensors and Actuators B: Chemical 2022, 351, 130944.

[21] Xiaxia Xing, # Zhengyou Zhu, # Dongliang Feng, Lingling Du and Dachi Yang, * The “Screening Behavior” of Lithium: Boosting H2S Selectivity of WO3 Nanofibers, Journal of Hazardous Materials 2021, 416, 125964.

[20] Dongliang Feng, Zhengyou Zhu, Xiaxia Xing, Lingling Du, Chen Wang, Jian Chen, Yongtao Tian * and Dachi Yang, * Highly Sensitive and Selective NiO/WO3 Composite Nanoparticles in Detecting H2S Biomarker of Halitosis, ACS Sensors 2021, 6(3), 733 - 741.

[19] Dongliang Feng, Zhengyou Zhu, Lingling Du, Xiaxia Xing, Chen Wang, Jian Chen, Yongtao Tian * and Dachi Yang, * Improved Sensing Performance of WO3 Nanoparticles Decorated with Ag and Pt Nanoparticles, Rare Metals 2021, 40, 1642–1650.

[18] Xiaxia Xing, Lingling Du, Dongliang Feng, Chen Wang, Mingshui Yao, Xiaohu Huang, Shixi Zhang and Dachi Yang, * Individual Gas Sensor Detecting Dual Exhaled Biomarkers via Temperature Modulated n/p Semiconducting Transition, Journal of Materials Chemistry A 2020, 8 (48), 26004-26012.

[17] Jian Chen, # Dongliang Feng, # Chen Wang, # Xiaxia Xing, Lingling Du, Zhengyou Zhu, Xiaohu Huang, * and Dachi Yang, * Gas Sensor Detecting 3-Hydroxy-2-Butanone Biomarkers: Boosted Response via Decorating Pd Nanoparticles onto BiVO4 {010}-Facets Decahedrons, ACS Sensors 2020, 5 (8), 2620–2627.

[16] Lingling Du, Dongliang Feng, Xiaxia Xing, Chen Wang, Gerasimos S. Armatas and Dachi Yang, * Uniform Palladium-nickel Nanowires Arrays for Stable Hydrogen Leakage Detection and Efficient Hydrogen Evolution Reaction, Chemical Engineering Journal 2020, 400, 125864.

[15] Xiaxia Xing, Zhengyou Zhu, Lingling Du, Dongliang Feng, Jian Chen, Shun Li and Dachi Yang, * Burrs-Shelled SnO2@Al2O3 Nanocables for Detection of 3-Hydroxy-2-Butanone Biomarkers at Low Temperature, Applied Surface Science 2020, 502, 144106.

[14] Lingling Du, Dongliang Feng, Xiaxia Xing, Yang Fu, Luis F Fonseca and Dachi Yang, * Palladium / Cobalt Nanowires with Improved Hydrogen Sensing Stability at Ultra-Low Temperatures, Nanoscale, 2019, 11(44), 21074-21080.

[13]Zhengyou Zhu, Lijun Zheng, Shizheng Zheng, Jian Chen, Xiaxia Xing, Dongliang Feng and Dachi Yang, * Multichannel Pathways-Enriched Mesoporous NiO Nanocuboids for Highly Sensitive and Selective Detection of 3-Hydroxy-2-Butanone Biomarkers, Journal of Materials Chemistry A 2019, 7(17), 10456-10463.

[12]Lingling Du, Lijun Zheng, Hongrei Wei, Shizheng Zheng, Zhengyou Zhu, Jian Chen, and Dachi Yang, * Palladium/Bismuth Nanowires with Rough Surface for Stable Hydrogen Sensing at Low Temperatures, ACS Applied Nano Materials 2019, 2(3), 1178-1184.

[11]Wen Wang, * Xueli Liu, Shengchao Mei, Yana Jia, Mengwei Liu, Xufeng Xue, Dachi Yang, * Development of A Pd/Cu Nanowires Coated SAW Hydrogen Gas Sensor with Fast Response and Recovery, Sensors and Actuators B: Chemical 2019, 287, 157-164.

[10]Shizheng Zheng, Yang Fu, Lijun Zheng, Zhengyou Zhu, Jian Chen, Zhiqiang Niu and Dachi Yang, * PEDOT Engineered Bi2O3 Nanosheet Arrays for Flexible Asymmetric Supercapacitors with Boosted Energy Density, Journal of Materials Chemistry A 2019, 7(10), 5530-5538.

[9] Lijun Zheng, Shizheng Zheng, Hongrui Wei, Lingling Du, Zhengyou Zhu, Jian Chen and Dachi Yang, * Palladium/Bismuth/Copper Hierarchical Nano-Architectures for Efficient Hydrogen Evolution and Stable Hydrogen Detection, ACS Applied Materials & Interfaces 2019, 11(6), 6248-6256.

[8] Qiliang Wei,Yanqing Fu, Gaixia Zhang, Dachi Yang, * Guowen Meng,* Shuhui Sun.* Rational Design of Novel Nanostructured Arrays Based on Porous AAO Templates for Electrochemical Energy Storage and Conversion, Nano Energy 2019, 55, 234-259.

[7] Zhengyou Zhu, Lijun Zheng, Shizheng Zheng, Jian Chen, Minghui Liang, Yongtao Tian, and Dachi Yang, *Cr doped WO3 Nanofibers Enriched with Surface Oxygen Vacancies for Highly Sensitive Detection of the 3-Hydroxy-2-Butanone Biomarker, Journal of Materials Chemistry A 2018, 6,(43) 21419 - 21427.

[6] Shizheng Zheng, Lijun Zheng, Zhengyou Zhu, Jian Chen, Jianli Kang, Zhulin Huang and Dachi Yang, * MoS2 Nanosheet Arrays Rooted on Hollow rGO Spheres as Bifunctional Hydrogen Evolution Catalyst and Supercapacitor Electrode, Nano-Micro Letters 2018, 10, 62.

[5] Rong Chang, Lijun Zheng, Chengwen Wang, Dachi Yang, * Gaixia Zhang and Shuhui Sun, * Synthesis of Hierarchical Platinum-Palladium-Copper Nanodendrites for Efficient Methanol Oxidation, Applied Catalysis B: Environmental 2017, 211, 205–211.

[4] Dachi Yang, Luis F Fonseca, * Wet-chemical Approaches to Porous Nanowires with Linear, Spiral and Meshy Topologies. Nano Letters 2013,13,5642-5646.

[3] Dachi Yang, Luis Valentín, Jennifer Carpena, Wilfredo Otaño, Oscar Resto and Luis F Fonseca, * Temperature-activated Reverse Sensing Behavior of Pd Nanowires Hydrogen Sensors. Small 2013, 9,188-192.

[2] Dachi Yang, Guowen Meng, * Chuhong Zhu, Fangming Han and Li Chen. Synthesis and Thermal Expansion of Cu Nanotubes and Nanowires with Y- and step-shaped topologies. Small 2010, 6, 381-385.

[1] Dachi Yang, Guowen Meng, * Qiaoling Xu, Xianglong Zhao, Jianxiong Liu, Mingguang Kong, Zhaoqin Chu, Xiaoguang Zhu, and Lide Zhang. A Generic Approach to Nanocables via Nanochannel-confined Sequential Electrodeposition. Applied Physics Letters 2008, 92, 083109.


讲授课程

研究生:《纳米材料科学基础与前沿》、《信息前沿》

本科生:《纳米材料科学导论》、《专业实验》、《学科导引》

社会兼职

担任学术期刊审稿人Nature communicationAdvanced Materials Chemical Engineering JournalACS SensorsSensors & Actuators B: ChemicalSensorsAdvanced Sensor ResearchNano LettersAdvanced ScienceAdvanced Energy MaterialsJournal of Hazardous MaterialsACS Applied Materials & InterfacesCeramics InternationalACS Applied Nano MaterialsJournal of Hydrogen EnergyApplied Surface ScienceRare MetalsChinese Chemical LettersACS NanoAdvanced Functional Materials