This track focuses on the transformative role of green chemistry in building a sustainable future. It will cover the design of safer chemicals, alternative reaction pathways, biodegradable materials, and renewable feedstocks that reduce environmental impact. Participants will explore innovations that align with the 12 Principles of Green Chemistry, including case studies from academia and industry. The session aims to foster collaboration between chemists, environmentalists, and policymakers to promote sustainable solutions at all levels of chemical production and application.
This session addresses comprehensive strategies for mitigating pollution across Earth's vital ecosystems-air, water, and soil. Attendees will delve into emerging contaminants, traditional pollutants, and the technologies used to monitor, manage, and remediate them. Topics include air quality management, wastewater treatment innovations, and soil remediation techniques. Emphasis will be placed on both prevention and corrective strategies, using chemical, physical, and biological approaches to reduce pollution's impact on the environment and human health.
This track explores the increasing threat posed by newly recognized contaminants such as endocrine disruptors, pharmaceuticals, personal care products, and microplastics. Discussions will include their sources, fate, and transport in the environment, as well as their effects on ecosystems and human health. Presentations will highlight cutting-edge analytical techniques, regulatory challenges, and innovative removal technologies, including advanced filtration, adsorption, and biological methods.
This session investigates the critical connections between climate change and environmental chemistry. It will explore the role of greenhouse gases, aerosols, and atmospheric reactions in global warming and extreme weather patterns. Attendees will learn how chemical data contributes to climate modeling, carbon capture technologies, and policy development. Special focus will be placed on how chemists can contribute to climate resilience, mitigation strategies, and the development of low-emission technologies.
This track showcases cutting-edge approaches to managing solid, hazardous, and industrial waste while recovering valuable materials. Sessions will include discussions on zero-waste systems, chemical recycling technologies, composting innovations, and waste-to-energy conversions. Experts will share case studies on turning waste streams into economic opportunities, promoting circular economy principles, and reducing the ecological footprint of waste disposal through smarter design and processing.
Dive into the complex interactions between environmental pollutants and living organisms. This session will focus on toxicological assessments of chemicals, biomarkers of exposure, and ecotoxicity testing. Attendees will learn how risk assessments are conducted, interpreted, and used to inform regulations. With increasing concern over chemical mixtures and low-dose effects, this track also addresses emerging methodologies and tools to predict long-term impacts on human health and ecosystems.
Explore the potential of nanotechnology to revolutionize environmental chemistry. This track presents the latest advancements in nanomaterials designed for pollution detection, degradation, and remediation. From nano-sorbents used in water purification to nanosensors that detect trace pollutants in real-time, the session highlights how nanoscale innovation offers high sensitivity, reusability, and minimal environmental disruption. Discussions will also include regulatory and ethical considerations of applying nanotech in open ecosystems.
This session focuses on pollution originating from industrial activities, including mining, manufacturing, oil and gas, and agriculture. Participants will examine remediation technologies such as advanced oxidation processes, membrane filtration, electrochemical treatments, and catalytic conversions. The track emphasizes the importance of source control, emission reduction, and clean production practices in industrial operations, along with case studies demonstrating successful remediation efforts across the globe.
This track highlights environmentally friendly biological methods to clean up polluted environments. Presentations will feature the use of microbes, fungi, and plants to degrade, transform, or absorb pollutants from soil and water. Topics include genetic engineering of microbes for enhanced degradation, rhizoremediation, and the synergistic use of multiple biological agents. Attendees will gain insight into the mechanisms, success stories, and limitations of these natural cleanup techniques.
This session bridges environmental chemistry with epidemiology and public health. It will examine the direct and indirect effects of pollutants-such as heavy metals, particulate matter, and volatile organic compounds-on human health. Case studies will explore air pollution-related diseases, contamination crises, and vulnerable populations. Attendees will also learn about chemical exposure assessment tools, health surveillance systems, and the role of policy in protecting communities from environmental hazards.
Analytical chemistry forms the backbone of environmental research and regulation. This track will cover advanced instrumentation and methods used to detect and quantify pollutants in various matrices-air, water, soil, and biological samples. Techniques such as gas chromatography, liquid chromatography, atomic absorption spectroscopy, and mass spectrometry will be discussed. Attendees will also explore new developments in field-deployable sensors, real-time monitoring systems, and data interpretation software.
This session addresses the role of science-based policy and regulation in managing chemical risk and promoting sustainable development. Topics include regulatory frameworks like REACH, TSCA, and EPA guidelines, international agreements, and the role of science in shaping law. Discussions will also highlight how policy can encourage green innovation, corporate responsibility, and the integration of environmental goals into industrial and research agendas.