Prof.Zhilong SONG | Chemistry | Best Researcher Award

Dr. Zhilong Song, a distinguished researcher in the field of semiconductor sensitive materials and sensing technology, earned his PhD from Huazhong University of Science and Technology in 2017. Following postdoctoral research at Hong Kong University of Science and Technology, he joined the Institute of Energy Research at Jiangsu University in December 2022. Dr. Song, a project leader and recipient of the National Encouragement Scholarship, has pioneered advancements in gas sensor integration, packaging, and hydrogen energy safety monitoring. His prolific contributions include over 30 SCI papers published in top-tier journals, earning more than 2000 citations and an impressive H-Index of 25. 🎓🔬🏆

Publication Top Notes :

Scopus

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Honors/Awards :

Dr. Zhilong Song is a distinguished scholar, adorned with prestigious honors and awards. His academic journey includes the National Encouragement Scholarship, recognizing his outstanding contributions. Further, he secured the National Scholarship for Graduate Students, showcasing his excellence in advanced studies. Dr. Song’s intellectual prowess is evident in being honored for his Excellent Master’s Thesis at both Jiangsu University and Jiangsu Province. These accolades reflect his commitment to scholarly excellence and innovation. 🏆🎓 His research prowess extends beyond publications, as he continues to garner recognition for his impactful contributions to the academic landscape.

Research Focus :

Dr. Zhilong Song is a distinguished researcher whose primary research focus lies in the development and application of advanced materials for gas sensing and environmental monitoring. 🌐 His work spans the synthesis of semiconductor materials, including quantum wires and quantum dots, and their integration into gas sensors with applications ranging from hydrogen sulfide (H2S) detection to smart gas sensor arrays. 🛰️ Dr. Song’s expertise extends to the design of molecularly imprinted polymers for selective and sensitive optosensing. His innovative contributions have significantly advanced the fields of materials chemistry and sensing technology, paving the way for safer hydrogen energy monitoring and efficient pollutant detection. 🌟

Publication Top Notes :

1. Adsorption behavior of metal–organic frameworks for methylene blue from aqueous solution – Cited 413 times (2014) 📘
2. Sensitive Room-Temperature H₂S Gas Sensors Employing SnO₂ Quantum Wire/Reduced Graphene Oxide Nanocomposites – Cited 390 times (2016) 🌡️
3. Preparation of ion-imprinted mesoporous silica SBA-15 functionalized with triglycine for selective adsorption of Co (II) – Cited 100 times (2013) 🧪
4. Reversible Formation of g‐C₃N₄ 3D Hydrogels through Ionic Liquid Activation: Gelation Behavior and Room‐Temperature Gas‐Sensing Properties – Cited 94 times (2017) 🌐
5. Sensitive H2S gas sensors employing colloidal zinc oxide quantum dots – Cited 84 times (2017) ⚗️
6. Solution-Processed Gas Sensors Employing SnO₂ Quantum Dot/MWCNTNanocomposites – Cited 83 times (2016) 🔄
7. Enhanced photocatalytic activity of ternary Ag3PO4/GO/g-C3N4 photocatalysts for Rhodamine B degradation under visible light radiation – Cited 79 times (2019) 🌈
8. Wireless self-powered high-performance integrated nanostructured-gas-sensor network for future smart homes – Cited 76 times (2021) 🏠
9. Fully stretchable and humidity-resistant quantum dot gas sensors – Cited 69 times (2018) 🌧️
10. Smart gas sensor arrays powered by artificial intelligence – Cited 61 times (2019) 🧠
11. Molecular imprinting in fluorescent particle stabilized pickering emulsion for selective and sensitive optosensing of λ-cyhalothrin – Cited 56 times (2013) 🌐
12. Near room temperature operable H2S sensors based on In2O3 colloidal quantum dots– Cited 53 times (2019) 🌡️