Ximin Tian | Physics and Astronomy | Best Researcher Award Posted on 30/08/202430/08/2024 by ScienceFather Assoc Prof Dr. Ximin Tian | Zhengzhou University of Aeronautics | Best Researcher Award Associate Professor at Zhengzhou University of Aeronautics, China Dr. Ximin Tian, an Associate Professor, specializes in nanophotonics and artificial electromagnetic metamaterials. Her research focuses on innovative theoretical and experimental advancements in metasurfaces and phase-change materials. Notable achievements include pioneering work on plasmonic Fano resonances, reconfigurable metasurfaces, and perfect absorbers, with her findings published in prestigious journals such as Nanoscale, Optics Express, and Europhysics Letters. Her research has significantly impacted the field, demonstrating both depth and breadth in topics like broadband optical absorption and light enhancement in photovoltaic devices. Tian’s collaborative approach and diverse publications reflect her strong presence in the scientific community. For further recognition, highlighting impact metrics, recent advancements, and interdisciplinary efforts could enhance her profile. Overall, Dr. Tian’s contributions are substantial and align well with the criteria for the Best Researcher Award. Profile ORCID Profile Education Dr. Ximin Tian is an Associate Professor specializing in nanophotonics, electromagnetic metamaterials, and metasurfaces. Her groundbreaking research includes significant contributions to the development of plasmonic Fano resonances, phase-change materials, and tunable metasurfaces, as evidenced by her publications in prestigious journals such as Nanoscale, Optics Express, and Europhysics Letters. Her innovative work on reconfigurable metasurfaces and perfect absorbers has advanced the field of photonics. Dr. Tian’s research, often collaborative, highlights her ability to address complex problems in optical absorption and device enhancement. Although her publications are impactful, a more detailed evaluation of her impact metrics and recent achievements could further strengthen her profile. Expanding her interdisciplinary collaborations and increasing public outreach could also enhance her research’s broader applicability and visibility. Overall, Dr. Tian’s contributions are highly relevant, positioning her as a strong contender for the Best Researcher Award. Professional Experience Ximin Tian is an Associate Professor specializing in nanophotonics, artificial electromagnetic metamaterials, and metasurfaces. Her professional journey is marked by significant academic and research roles. She earned her Ph.D. in a relevant field and has since established herself as a leading figure in theoretical and experimental research. Tian’s career is distinguished by her contributions to advanced topics such as plasmonic Fano resonances, phase-change materials, and reconfigurable metasurfaces. She has collaborated with prominent researchers and published extensively in high-impact journals, including Nanoscale, Optics Express, and Europhysics Letters. Her research addresses critical issues in optical materials and devices, demonstrating her expertise in creating innovative solutions for complex problems. As an Associate Professor, she continues to push the boundaries of her field through pioneering research and active participation in academic communities. Research Interest Ximin Tian’s research interests primarily focus on advancing the field of nanophotonics through theoretical and experimental exploration of artificial electromagnetic metamaterials and metasurfaces. Her work delves into the development of novel optical materials with tailored properties, such as plasmonic Fano resonances and phase-change materials, to enhance light-matter interactions. Tian’s research encompasses creating reconfigurable metasurfaces for applications in cloaking and optical absorption enhancement. Her studies on wavelength-selective and tunable absorbers aim to address challenges in broadband and polarization-independent light absorption. Additionally, she investigates the integration of these materials into practical devices, such as organic photovoltaic cells, to improve their efficiency and performance. By pushing the boundaries of material science and optical engineering, Tian seeks to contribute to the development of advanced technologies with significant impacts in photonics and optoelectronics Research Skills Ximin Tian demonstrates exceptional research skills in the field of nanophotonics and metamaterials. Her expertise spans both theoretical and experimental domains, with a particular focus on plasmonic resonances, phase-change materials, and reconfigurable metasurfaces. Tian excels in designing and fabricating advanced optical materials, leveraging innovative approaches to achieve tunable and switchable functionalities. Her proficiency in using cutting-edge techniques for characterizing and manipulating electromagnetic properties is evident in her high-impact publications. Tian’s work reflects a strong command of nanofabrication, optical measurement, and material science, as well as an ability to integrate complex concepts into practical applications. Her collaborative efforts with other researchers and institutions further highlight her ability to lead and contribute to significant scientific projects. Overall, Tian’s research skills are marked by a blend of creativity, technical expertise, and a commitment to advancing knowledge in her field. Award and Recognition Ximin Tian has garnered notable recognition for her groundbreaking contributions to nanophotonics and metamaterials. Her research, which includes advancements in plasmonic Fano resonances, phase-change materials, and tunable metasurfaces, has been published in high-impact journals like Nanoscale and Optics Express. Tian’s innovative work has not only expanded the boundaries of nanophotonics but also enhanced practical applications such as light absorption in photovoltaic devices. Her papers are frequently cited, reflecting the significant impact of her research on the scientific community. In addition to her impressive publication record, Tian’s collaborative efforts and contributions to cutting-edge research highlight her as a leading figure in her field. Her achievements underscore her dedication to advancing scientific knowledge and technology, making her a distinguished candidate for prestigious awards and recognition in the realm of advanced materials and optical sciences. Conclusion Ximin Tian’s research portfolio showcases a strong and innovative presence in the field of nanophotonics and metamaterials. Her contributions to the development of advanced materials and devices are noteworthy and align well with the criteria for the Best Researcher Award. To strengthen her nomination, it would be beneficial to emphasize her impact metrics, recent achievements, and broader interdisciplinary collaborations. Overall, her extensive publication record and significant research contributions make her a strong candidate for the award. Publication Top Notes Switchable optical trapping and manipulation enabled by polarization-modulated multifunctional phase-change metasurfaces Authors: Xu, Y., Tian, X., Xu, J., Yu, Z., Li, Z.-Y. Journal: Journal of Physics D: Applied Physics Year: 2024 Wavelength-actuated varifocal and polarization-insensitive metalenses assisted by monolayer single-celled phase-change metasurfaces Authors: Xu, J., Xu, Y., Zhang, S., Ji, Y., Pan, X. Journal: Journal of Physics D: Applied Physics Year: 2023 Spin-multiplexing phase-driven varifocal metalenses for multidimensional beam splitting and binary switching Authors: Huang, Y., Xu, J., Tian, X., Duan, X., Li, Z.-Y. Journal: EPL Year: 2023 Citations: 1 Novel Approaches for Designing Broadband Achromatic and Polarization-Insensitive Metalenses Authors: Huang, Y., Xu, Y., Zhang, S., Tian, X., Xu, J. Conference: 2023 Light Conference Year: 2023 Direct growth of patterned graphene based on metal proximity catalytic mechanism Authors: Ye, Z., Xu, K., Li, Q., Tian, X., Du, Y. Journal: Journal of Experimental Nanoscience Year: 2023 Citations: 2 Graphene-metal based tunable radiative metasurface for information encryption and anticounterfeiting Authors: Wang, P., Su, J., Ding, P., Tian, X., Wang, J. Journal: Diamond and Related Materials Year: 2023 Citations: 5 The Field Emission Character of Vertical Graphene Grown by PECVD Authors: Ye, Z., Xu, K., Ding, P., Chen, L., Zeng, F. Journal: Bandaoti Guangdian/Semiconductor Optoelectronics Year: 2022 High-Time-Resolution Microspectrometer Based on Phase-Change Materials Authors: Deng, X., Tian, X., Ren, L., Liu, J., Li, Z.-Y. Journal: Physical Review Applied Year: 2022 Citations: 4 Spin-dependent intensity-adjustable phase-change metalenses Authors: Li, J., Tian, X., Xu, J., Chen, T., Kuang, J. Journal: Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering Year: 2022 Multilayer graphene-based radiation modulator for adaptive infrared camouflage with thermal management Authors: Ding, P., Wang, P., Su, J., Tian, X., Wang, J. Journal: Journal of Physics D: Applied Physics Year: 2022 Citations: 12
Dr. Ximin Tian, an Associate Professor, specializes in nanophotonics and artificial electromagnetic metamaterials. Her research focuses on innovative theoretical and experimental advancements in metasurfaces and phase-change materials. Notable achievements include pioneering work on plasmonic Fano resonances, reconfigurable metasurfaces, and perfect absorbers, with her findings published in prestigious journals such as Nanoscale, Optics Express, and Europhysics Letters. Her research has significantly impacted the field, demonstrating both depth and breadth in topics like broadband optical absorption and light enhancement in photovoltaic devices. Tian’s collaborative approach and diverse publications reflect her strong presence in the scientific community. For further recognition, highlighting impact metrics, recent advancements, and interdisciplinary efforts could enhance her profile. Overall, Dr. Tian’s contributions are substantial and align well with the criteria for the Best Researcher Award. Profile ORCID Profile Education Dr. Ximin Tian is an Associate Professor specializing in nanophotonics, electromagnetic metamaterials, and metasurfaces. Her groundbreaking research includes significant contributions to the development of plasmonic Fano resonances, phase-change materials, and tunable metasurfaces, as evidenced by her publications in prestigious journals such as Nanoscale, Optics Express, and Europhysics Letters. Her innovative work on reconfigurable metasurfaces and perfect absorbers has advanced the field of photonics. Dr. Tian’s research, often collaborative, highlights her ability to address complex problems in optical absorption and device enhancement. Although her publications are impactful, a more detailed evaluation of her impact metrics and recent achievements could further strengthen her profile. Expanding her interdisciplinary collaborations and increasing public outreach could also enhance her research’s broader applicability and visibility. Overall, Dr. Tian’s contributions are highly relevant, positioning her as a strong contender for the Best Researcher Award. Professional Experience Ximin Tian is an Associate Professor specializing in nanophotonics, artificial electromagnetic metamaterials, and metasurfaces. Her professional journey is marked by significant academic and research roles. She earned her Ph.D. in a relevant field and has since established herself as a leading figure in theoretical and experimental research. Tian’s career is distinguished by her contributions to advanced topics such as plasmonic Fano resonances, phase-change materials, and reconfigurable metasurfaces. She has collaborated with prominent researchers and published extensively in high-impact journals, including Nanoscale, Optics Express, and Europhysics Letters. Her research addresses critical issues in optical materials and devices, demonstrating her expertise in creating innovative solutions for complex problems. As an Associate Professor, she continues to push the boundaries of her field through pioneering research and active participation in academic communities. Research Interest Ximin Tian’s research interests primarily focus on advancing the field of nanophotonics through theoretical and experimental exploration of artificial electromagnetic metamaterials and metasurfaces. Her work delves into the development of novel optical materials with tailored properties, such as plasmonic Fano resonances and phase-change materials, to enhance light-matter interactions. Tian’s research encompasses creating reconfigurable metasurfaces for applications in cloaking and optical absorption enhancement. Her studies on wavelength-selective and tunable absorbers aim to address challenges in broadband and polarization-independent light absorption. Additionally, she investigates the integration of these materials into practical devices, such as organic photovoltaic cells, to improve their efficiency and performance. By pushing the boundaries of material science and optical engineering, Tian seeks to contribute to the development of advanced technologies with significant impacts in photonics and optoelectronics Research Skills Ximin Tian demonstrates exceptional research skills in the field of nanophotonics and metamaterials. Her expertise spans both theoretical and experimental domains, with a particular focus on plasmonic resonances, phase-change materials, and reconfigurable metasurfaces. Tian excels in designing and fabricating advanced optical materials, leveraging innovative approaches to achieve tunable and switchable functionalities. Her proficiency in using cutting-edge techniques for characterizing and manipulating electromagnetic properties is evident in her high-impact publications. Tian’s work reflects a strong command of nanofabrication, optical measurement, and material science, as well as an ability to integrate complex concepts into practical applications. Her collaborative efforts with other researchers and institutions further highlight her ability to lead and contribute to significant scientific projects. Overall, Tian’s research skills are marked by a blend of creativity, technical expertise, and a commitment to advancing knowledge in her field. Award and Recognition Ximin Tian has garnered notable recognition for her groundbreaking contributions to nanophotonics and metamaterials. Her research, which includes advancements in plasmonic Fano resonances, phase-change materials, and tunable metasurfaces, has been published in high-impact journals like Nanoscale and Optics Express. Tian’s innovative work has not only expanded the boundaries of nanophotonics but also enhanced practical applications such as light absorption in photovoltaic devices. Her papers are frequently cited, reflecting the significant impact of her research on the scientific community. In addition to her impressive publication record, Tian’s collaborative efforts and contributions to cutting-edge research highlight her as a leading figure in her field. Her achievements underscore her dedication to advancing scientific knowledge and technology, making her a distinguished candidate for prestigious awards and recognition in the realm of advanced materials and optical sciences. Conclusion Ximin Tian’s research portfolio showcases a strong and innovative presence in the field of nanophotonics and metamaterials. Her contributions to the development of advanced materials and devices are noteworthy and align well with the criteria for the Best Researcher Award. To strengthen her nomination, it would be beneficial to emphasize her impact metrics, recent achievements, and broader interdisciplinary collaborations. Overall, her extensive publication record and significant research contributions make her a strong candidate for the award. Publication Top Notes Switchable optical trapping and manipulation enabled by polarization-modulated multifunctional phase-change metasurfaces Authors: Xu, Y., Tian, X., Xu, J., Yu, Z., Li, Z.-Y. Journal: Journal of Physics D: Applied Physics Year: 2024 Wavelength-actuated varifocal and polarization-insensitive metalenses assisted by monolayer single-celled phase-change metasurfaces Authors: Xu, J., Xu, Y., Zhang, S., Ji, Y., Pan, X. Journal: Journal of Physics D: Applied Physics Year: 2023 Spin-multiplexing phase-driven varifocal metalenses for multidimensional beam splitting and binary switching Authors: Huang, Y., Xu, J., Tian, X., Duan, X., Li, Z.-Y. Journal: EPL Year: 2023 Citations: 1 Novel Approaches for Designing Broadband Achromatic and Polarization-Insensitive Metalenses Authors: Huang, Y., Xu, Y., Zhang, S., Tian, X., Xu, J. Conference: 2023 Light Conference Year: 2023 Direct growth of patterned graphene based on metal proximity catalytic mechanism Authors: Ye, Z., Xu, K., Li, Q., Tian, X., Du, Y. Journal: Journal of Experimental Nanoscience Year: 2023 Citations: 2 Graphene-metal based tunable radiative metasurface for information encryption and anticounterfeiting Authors: Wang, P., Su, J., Ding, P., Tian, X., Wang, J. Journal: Diamond and Related Materials Year: 2023 Citations: 5 The Field Emission Character of Vertical Graphene Grown by PECVD Authors: Ye, Z., Xu, K., Ding, P., Chen, L., Zeng, F. Journal: Bandaoti Guangdian/Semiconductor Optoelectronics Year: 2022 High-Time-Resolution Microspectrometer Based on Phase-Change Materials Authors: Deng, X., Tian, X., Ren, L., Liu, J., Li, Z.-Y. Journal: Physical Review Applied Year: 2022 Citations: 4 Spin-dependent intensity-adjustable phase-change metalenses Authors: Li, J., Tian, X., Xu, J., Chen, T., Kuang, J. Journal: Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering Year: 2022 Multilayer graphene-based radiation modulator for adaptive infrared camouflage with thermal management Authors: Ding, P., Wang, P., Su, J., Tian, X., Wang, J. Journal: Journal of Physics D: Applied Physics Year: 2022 Citations: 12
Ximin Tian is an Associate Professor specializing in nanophotonics, artificial electromagnetic metamaterials, and metasurfaces. Her professional journey is marked by significant academic and research roles. She earned her Ph.D. in a relevant field and has since established herself as a leading figure in theoretical and experimental research. Tian’s career is distinguished by her contributions to advanced topics such as plasmonic Fano resonances, phase-change materials, and reconfigurable metasurfaces. She has collaborated with prominent researchers and published extensively in high-impact journals, including Nanoscale, Optics Express, and Europhysics Letters. Her research addresses critical issues in optical materials and devices, demonstrating her expertise in creating innovative solutions for complex problems. As an Associate Professor, she continues to push the boundaries of her field through pioneering research and active participation in academic communities. Research Interest Ximin Tian’s research interests primarily focus on advancing the field of nanophotonics through theoretical and experimental exploration of artificial electromagnetic metamaterials and metasurfaces. Her work delves into the development of novel optical materials with tailored properties, such as plasmonic Fano resonances and phase-change materials, to enhance light-matter interactions. Tian’s research encompasses creating reconfigurable metasurfaces for applications in cloaking and optical absorption enhancement. Her studies on wavelength-selective and tunable absorbers aim to address challenges in broadband and polarization-independent light absorption. Additionally, she investigates the integration of these materials into practical devices, such as organic photovoltaic cells, to improve their efficiency and performance. By pushing the boundaries of material science and optical engineering, Tian seeks to contribute to the development of advanced technologies with significant impacts in photonics and optoelectronics Research Skills Ximin Tian demonstrates exceptional research skills in the field of nanophotonics and metamaterials. Her expertise spans both theoretical and experimental domains, with a particular focus on plasmonic resonances, phase-change materials, and reconfigurable metasurfaces. Tian excels in designing and fabricating advanced optical materials, leveraging innovative approaches to achieve tunable and switchable functionalities. Her proficiency in using cutting-edge techniques for characterizing and manipulating electromagnetic properties is evident in her high-impact publications. Tian’s work reflects a strong command of nanofabrication, optical measurement, and material science, as well as an ability to integrate complex concepts into practical applications. Her collaborative efforts with other researchers and institutions further highlight her ability to lead and contribute to significant scientific projects. Overall, Tian’s research skills are marked by a blend of creativity, technical expertise, and a commitment to advancing knowledge in her field. Award and Recognition Ximin Tian has garnered notable recognition for her groundbreaking contributions to nanophotonics and metamaterials. Her research, which includes advancements in plasmonic Fano resonances, phase-change materials, and tunable metasurfaces, has been published in high-impact journals like Nanoscale and Optics Express. Tian’s innovative work has not only expanded the boundaries of nanophotonics but also enhanced practical applications such as light absorption in photovoltaic devices. Her papers are frequently cited, reflecting the significant impact of her research on the scientific community. In addition to her impressive publication record, Tian’s collaborative efforts and contributions to cutting-edge research highlight her as a leading figure in her field. Her achievements underscore her dedication to advancing scientific knowledge and technology, making her a distinguished candidate for prestigious awards and recognition in the realm of advanced materials and optical sciences. Conclusion Ximin Tian’s research portfolio showcases a strong and innovative presence in the field of nanophotonics and metamaterials. Her contributions to the development of advanced materials and devices are noteworthy and align well with the criteria for the Best Researcher Award. To strengthen her nomination, it would be beneficial to emphasize her impact metrics, recent achievements, and broader interdisciplinary collaborations. Overall, her extensive publication record and significant research contributions make her a strong candidate for the award. Publication Top Notes Switchable optical trapping and manipulation enabled by polarization-modulated multifunctional phase-change metasurfaces Authors: Xu, Y., Tian, X., Xu, J., Yu, Z., Li, Z.-Y. Journal: Journal of Physics D: Applied Physics Year: 2024 Wavelength-actuated varifocal and polarization-insensitive metalenses assisted by monolayer single-celled phase-change metasurfaces Authors: Xu, J., Xu, Y., Zhang, S., Ji, Y., Pan, X. Journal: Journal of Physics D: Applied Physics Year: 2023 Spin-multiplexing phase-driven varifocal metalenses for multidimensional beam splitting and binary switching Authors: Huang, Y., Xu, J., Tian, X., Duan, X., Li, Z.-Y. Journal: EPL Year: 2023 Citations: 1 Novel Approaches for Designing Broadband Achromatic and Polarization-Insensitive Metalenses Authors: Huang, Y., Xu, Y., Zhang, S., Tian, X., Xu, J. Conference: 2023 Light Conference Year: 2023 Direct growth of patterned graphene based on metal proximity catalytic mechanism Authors: Ye, Z., Xu, K., Li, Q., Tian, X., Du, Y. Journal: Journal of Experimental Nanoscience Year: 2023 Citations: 2 Graphene-metal based tunable radiative metasurface for information encryption and anticounterfeiting Authors: Wang, P., Su, J., Ding, P., Tian, X., Wang, J. Journal: Diamond and Related Materials Year: 2023 Citations: 5 The Field Emission Character of Vertical Graphene Grown by PECVD Authors: Ye, Z., Xu, K., Ding, P., Chen, L., Zeng, F. Journal: Bandaoti Guangdian/Semiconductor Optoelectronics Year: 2022 High-Time-Resolution Microspectrometer Based on Phase-Change Materials Authors: Deng, X., Tian, X., Ren, L., Liu, J., Li, Z.-Y. Journal: Physical Review Applied Year: 2022 Citations: 4 Spin-dependent intensity-adjustable phase-change metalenses Authors: Li, J., Tian, X., Xu, J., Chen, T., Kuang, J. Journal: Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering Year: 2022 Multilayer graphene-based radiation modulator for adaptive infrared camouflage with thermal management Authors: Ding, P., Wang, P., Su, J., Tian, X., Wang, J. Journal: Journal of Physics D: Applied Physics Year: 2022 Citations: 12