Environmental Sensing Award
| Zheng Lian |
| Affiliation |
Chemical and Gas Sensors |
| Country |
China |
| Scopus ID |
57006207600 |
| Documents |
22 |
| Citations |
332 |
| h-index |
9 |
| Subject Area |
Chemical and Gas Sensors |
| Event |
Global Sensor Awards |
Zheng Lian
Chemical and Gas Sensors, China
The Environmental Sensing Award profile highlights the academic and scientific contributions of Zheng Lian in the field of chemical and gas sensing technologies. Environmental sensing plays a critical role in monitoring air quality, detecting hazardous gases, enabling industrial safety, and supporting environmental sustainability initiatives. Through published research outputs, measurable citation impact, and continued contributions to sensor science, Zheng Lian has demonstrated scholarly engagement within this specialized research domain.[1]
Abstract
This academic recognition profile evaluates the scientific activities and research accomplishments of Zheng Lian in environmental sensing and chemical sensor technologies. The profile summarizes publication activity, citation performance, scholarly influence, and relevance to contemporary environmental monitoring challenges. The available bibliometric indicators indicate sustained contributions to sensor development, gas detection methodologies, and related analytical applications within environmental and industrial contexts.[1][2]
Keywords
Environmental Sensing, Chemical Sensors, Gas Sensors, Air Quality Monitoring, Sensor Materials, Analytical Chemistry, Environmental Monitoring, Hazard Detection, Nanomaterials, Smart Sensing Technologies.
Introduction
Environmental sensing technologies have become increasingly important in addressing challenges associated with pollution control, industrial emissions, public health, and sustainable development. Advanced chemical and gas sensors provide critical information for monitoring atmospheric conditions and detecting hazardous substances. Researchers contributing to this field support both scientific advancement and practical implementation of sensing systems across diverse sectors.[2][3]
Research Profile
Zheng Lian is associated with research activities focused on chemical and gas sensing technologies. According to available bibliometric information, the researcher has produced 22 indexed scholarly documents and accumulated 332 citations from 310 citing documents. The recorded h-index of 9 reflects measurable scientific visibility and influence within the research community. These metrics indicate an established presence in sensor science and environmental monitoring research.[1]
Research Contributions
The research contributions associated with Zheng Lian primarily align with chemical sensing and gas detection technologies. Work in this area commonly involves the development of sensing materials, optimization of sensor performance, enhancement of selectivity and sensitivity, and application of sensor platforms for environmental analysis. Such contributions support advancements in pollution monitoring, industrial process control, and public safety applications.[3][4]
Environmental sensing research frequently integrates materials science, nanotechnology, chemistry, and electronics to improve analytical performance. The interdisciplinary nature of this work contributes to the development of practical sensing systems capable of addressing emerging environmental challenges.[4]
Publications
The documented publication portfolio includes peer-reviewed scholarly articles indexed within major scientific databases. The body of work contributes to the literature on chemical sensing, gas detection mechanisms, environmental analysis, and sensor material development. Publication activity demonstrates continued engagement with internationally recognized research topics in sensor science.[1][5]
Research Impact
Research impact can be evaluated through publication output, citation performance, and broader scholarly influence. With more than three hundred citations and citations originating from hundreds of independent documents, Zheng Lian’s work has achieved recognition within relevant scientific communities. Citation activity suggests that published findings have contributed to ongoing investigations in environmental sensing and related technological developments.[1]
The significance of environmental sensing research extends beyond academic literature by supporting technologies that improve environmental stewardship, industrial safety, and public health outcomes. Advances in sensor technologies continue to influence monitoring practices worldwide.[2][3]
Award Suitability
Based on the available publication record, citation metrics, and demonstrated engagement in chemical and gas sensor research, Zheng Lian exhibits characteristics aligned with recognition under the Environmental Sensing Award category. The combination of scholarly productivity, citation influence, and contributions to environmental monitoring technologies supports consideration within an international sensor research recognition framework.[1][5]
Conclusion
Zheng Lian’s academic profile reflects meaningful participation in the advancement of chemical and gas sensing technologies. Through scholarly publications, citation impact, and contributions to environmental sensing research, the researcher has established a recognized presence within the broader sensor science community. The available evidence supports the relevance of this profile to the Environmental Sensing Award and highlights the continuing importance of research addressing environmental monitoring challenges.[1][3]
External Links
References
- Elsevier. (n.d.). Scopus author details: Zheng Lian, Author ID 57006207600. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=57006207600
- Korotcenkov, G. (2013). Gas response control through structural and chemical modification of metal oxide films.
- Yamazoe, N., & Shimanoe, K. Gas sensor technologies and environmental monitoring applications.
- Comini, E. Metal oxide nanostructures for gas sensing applications.
- Global Sensor Awards. Environmental Sensing Award category and evaluation framework.
https://globalsensorawards.com/