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Field
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as climate change, Earth system science, air pollution, natural hazards, and monitoring of the Earth's surface. We have extensive experience in developing and applying remote sensing across
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, tunable porosity, and chemical versatility. These properties make them excellent candidates for detecting various analytes in liquid media, including heavy metals, organic pollutants, biomolecules, and
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containing linkers and porous frameworks and then investigate the supramolecular interactions with various organic pollutants. This would require knowledge in the design and synthesis of porous frameworks
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both natural and highly polluted conditions, and how these processes can be represented in models to theoretically assess the potential of cirrus cloud thinning as a climate intervention strategy. The
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, environmental geology and chemistry. The focus of the palaeoecological group is on Holocene landscape dynamics and relationships between vegetation/landscapes, human activity, metallurgy, pollution history, and
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for smart cities to tackle the air pollution challenge. According to the World Health Organization (WHO), air pollution places 99% of the global population at risk of developing various diseases and causes
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). The selected candidate will investigate biotechnological processes for soil remediation by bioelectrochemical degradation. The candidate will be responsible for the immobilization of pollutant-degrading
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for more than a 50% improvement in agronomic nitrogen efficiency—translating into significant fertilizer savings and reductions in water and air pollution. Key Responsibilities: Conduct comparative genomics and
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projects that characterize the toxicological effects of emerging environmental pollutants using advanced cellular and animal models. Rutgers NAMC is known for its transdisciplinary research on particle
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well as contribute to projects that integrate and analyze survey, field-based, and administrative data with high-resolution climate and air pollution datasets, with a particular emphasis on informal brick