姓名:景强 | » 系属:微电子科学与工程系 |
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» 学位:博士 | » 职称:副教授 | |
» 专业:电子信息(光学工程方向) | » 导师类别:硕士生导师 | |
» 电子邮箱:jingqiang@sdut.edu.cn | ||
» 通讯地址:山东省淄博市张店区山东理工大学西校区1号实验楼 | ||
» 联系方式: | ||
◎ 研究方向 1. 电子鼻、气体传感器、 癌症等疾病的呼出气体法诊断 2. 医用传感器、药物投送机器人等 ◎ 教育工作经历 1. 2021.01-至今,山东理工大学,副教授 2. 2017.01-2022.12,上海交通大学博士后 3. 2015.07-2020.12,山东理工大学,讲师 4. 2012.09-2015.06,吉林大学,微电子学与固体电子学,博士研究生 ◎ 学术兼职 1. 中国微米纳米技术学会会员、山东省颗粒学会会员、 ACS Sensors,Sensors and Actuators B: Chemica,Advanced Science等期刊审稿人 ◎ 主讲课程 1. 《MEMS微电子机械系统》、《薄膜物理》、《大学物理》等本科生课程 ◎ 承担项目(funding) 主持项目: 1.山东省自然科学基金面上项目:用于呼出气体法诊断、监测哮喘的MEMS气体传感器阵列的研究, 2024.01.01-2026.12.31, 10万元,主持 2. 国家自然科学基金青年科学基金项目,Ni掺杂IrTe2中类电荷密度波型结构相变及超导性质研究11804194, 2019.01-2021.12,24万元,主持。 3. 山东省自然科学基金青年科学基金项目,ZR2016AQ08,分子束外延手段制备Sr掺杂Bi2Se3单晶薄膜及其性质研究, 2016.11-2019.6,12万元,主持。 4.横向课题:实用型氢气传感器的研发,9万元, 主持 5.横向课题:用于诊断哮喘的气体传感器的研发,20万元, 主持 ◎毕业生去向: 读博:上海交通大学,中国科学技术大学, 山东大学 北京交通大学,北京科技大学 就业:无锡深南电路,齐鲁石化,某地级市国安局,中石化,招商银行,临沂二中, ◎ 论文(publication)仅列第一作者及通讯作者 [1]Qiang Jing ∗,Chengyi Gong, Ping Li, Shasha Han et al., Ultrasensitive Chemiresistive Gas Sensor Can Diagnose Asthma and Monitor Its Severity by Analyzing Its Biomarker H2S: An Experimental, Clinical, and Theoretical Study, ACS Sensors, 7, 2243-2252, (2022).(中科院一区) [2] Lingbo Cai, Xiangqing Dong, Qiang Jing∗, Ping Li, Bo Liu et al., Ultrasensitive acetone gas sensor can distinguish the diabetic state of people and its high performance analysis by first-principles calculation, Sensors and Actuators: B. Chemical, 351, 130863, (2022).(中科院一区) [3] Wengang Bian, Hongrui Dou, Qiang Jing∗, Bo Liu et al., Fabrication and Computational Study of a Chemiresistive NO2 Gas Sensor Based on the Carbon Dots-WO3 Heterostructure for Operating below Room Temperature, ACS Sensors, 8, 748-756 (2023).(中科院一区) [4] Na Sun, Qingyin Tian, Qiang Jing∗, Bo Liu et al., Highly sensitive and lower detection-limit NO2 gas sensor based on Rh-doped ZnO nanofibers prepared by electrospinning, Applied Surface Science, 614, 156213, (2023).(中科院二区) [5] Shu Zhu, Qingyin Tian, Qiang Jing∗, Bo Liu et al., Highly sensitive and stable H2 gas sensor based on p-PdO-n-WO3-heterostructure-homogeneously-dispersing thin film, International Journal of Hydrogen Energy, 47, 17821-17834, (2022) .(中科院二区) [6] Lingbo Cai, Shu Zhu, Qiang Jing∗, Bo Liu et al., Highly sensitive H2 sensor based on PdO-decorated WO3 nanospindle p-n heterostructure, International Journal of Hydrogen Energy, 45, 31327-31340, (2020).(中科院二区) [7] Hongrui Dou, Xiaoyu You, Qiang Jing∗, Bo Liu et al., Potential high-performance H2 gas sensors based on monolayer 2D metal oxide α-MoO3 doped with Pt/Rh-predicted by DFT calculations, International Journal of Hydrogen Energy, 63, 10-18, (2024).(中科院二区) [8] Chunjie Li, Xiaoyu You, Qiang Jing∗, Bo Liu et al., A highly sensitive ethylene gas sensor based on PtO2-decorated SnO2 used to monitor the ripening and spoilage of fruits and vegetables that are stored at room temperature, New Journal Chemistry, 48, 10686-10696 (2024).(中科院三区) [9] Chengyi Gong, Meng Chen Qiang Jing∗, Bo Liu et al., A Highly Sensitive Toluene Gas Sensor Based on Pd/PdO Decorated SnO2 Prepared by Electrospinning, ACS Applied Electronic Materials, 6, 6036-6048 (2024).(中科院三区) • Publication on Topological and Superconducting Physics (as corresponding author) [10]Sakthivel Chandrasekar Qiang Jing*, Harvesting high-performance electro-water oxidation and selective MB degradation through dual functional Gd2O3–La2O3 photo-electrocatalystsMaterials Today Sustainability 27(2024)100947(中科院三区) [11]Manikandan Krishnan, Qiang Jing*, Evolution of superconducting and normal state properties of Fe1.09Se0.55Te0.45 under pressure, https://doi.org/10.1016/j.jpcs.2025.112628.(中科院三区) [12]Manikandan Krishnan, Qiang Jing*, Superconducting ground state and electronic properties of σ-Phase Ta-W-Mo-Re-Os high entropy alloys, https://doi.org/10.1016/j.jpcs.2025.112630.(中科院三区) [13] Qingyin Tian, Cao Wang, Qiang Jing∗, Ping Li et al., The chemical states and electronic states of layered carbide superconductor ThMo2Si2C, Physica Scripta, 98, 015818, (2023).(中科院三区) [14] Jingfeng Wang, Fei Jiao, Qiang Jing∗ et al., Investigate the Nb doping position and its relationship with bulk topological superconductivity in NbxBi2Se3 by X-ray photoelectron spectra, Journal of Physics and Chemistry of Solids, 137, 109208, (2020).(中科院三区) [15] Jingfeng Wang, Fei Jiao, Qiang Jing∗, Bo Liu et al., The phase transition of ThFe1−xCoxAsN from superconductor to metallic paramagnet, Europhysics Letters (EPL), 130, 67003, (2020) .(中科院三区) [16] Q. Jing, W. X. Jiang, D. Qian∗ et al., Topological phase transition of Bi2−xInxTe3, Europhysics Letters (EPL), 128, 37001, (2019).(中科院三区) [17] Xianyu Wang, Fei Jiao, Qiang Jing∗, Bo Liu et al., Identify the Nematic Superconductivity of Topological Superconductor PdxBi2Te3 by Angle dependent Upper Critical Field Measurement, Journal of Superconductivity and Novel Magnetism, 34, 3045-3052, (2021) .(中科院四区) [18] Fei Jiao, Xianyu Wang, Qiang Jing∗, Cao Wang, Bo Liu et al., The Superconducting Phase Diagram of ThFe1−xNixAsN, Journal of Superconductivity and Novel Magnetism, 34, 409–415, (2021).(中科院四区) [19] Fei Jiao, Jingfeng Wang, Qiang Jing∗, Bo Liu et al., The Layer-Inserting Growth of Antiferromagnetic Topological Insulator MnBi2Te4 Based on Symmetry and Its X-ray Photoelectron Spectroscopy, Journal of Superconductivity and Novel Magnetism, 34, 1485–1493, (2021) .(中科院四区) • Publication on III-V semiconductor InN and ZnO (as first author) [20] Qiang Jing, Hang Yang, Wancheng Li, Guoguang Wu et al., Catalyst free growth of high density uniform InN nanocolumns on p-GaAs(001) surface by PA-MBE and their in situ XPS analysis, Applied Surface Science, 331, 248–253, (2015)(中科院二区) [21] Qiang Jing, Guoguang Wu, Wancheng Li et al., Band alignment of InN/6H-SiC heterojunction determined by X-ray photoelectron spectroscopy, Applied Physics Letters, 105, 063510, (2014)(自然指数期刊) [22] Qiang Jing, Wuyou Fu, Haibin Yang et al., Synthesis of snowflake-like multi-layered ZnO with controllable pore sizes and its photocatalytic property, Applied Surface Science, 258, 3604–3610, (2012) PATENTS(中科院二区) ◎专利: A highly sensitive H2S gas sensor can diagnose asthma. (NO. 202111634454.0)(being examined at the last stage by China Administration intellectual Property Administration) | ||
