GEOC Call for Abstracts: Spring 2025 Meeting, San Diego, CA

Geochemistry Division Call for Abstracts

Abstract submission deadline: September 30, 2024. https://callforabstracts.acs.org/acsspring2025/GEOC

You are invited to submit abstracts for the following GEOC symposia:

• Symposium in Honor of Prof. Janet Hering, 2025 Geochemistry Medal Recipient

• Broadening Participation in Geochemistry: Bridging People, Science & Policy to Tackle Community, Regional & Global Issues that Affect Our Planet

• Chemistry Under Nano-scale Confinement

• Environmental Radiochemistry

• Frontiers in Analytical and Computational Geochemistry

• Fundamentals of Structure and Reactivity at Mineral-Water Interfaces

• Geochemical Pathways for Carbon Capture, Removal, Utilization, and Storage: Laboratory to Field

• Geochemical Processes and Energy in Subsurface Environments

• Geochemical, Environmental and Sociotechnical Implications of Mining

• Separation Science and Technologies for Critical Materials

• Sun, Sand, and Sustainability: Early Career Researchers Forging Advances in Marine Chemistry

• General Geochemistry

Late submission may be possible after the due date. Please contact the Program Chairs, Sang Soo Lee and Ian C. Bourg, by email (sslee@anl.gov and bourg@princeton.edu) for inquiry.

The Division also accepts applications for the Student Travel Award and Early Career Scientist Travel Award for the Spring Meeting. Each award includes the registration waiver, $200 stipend, and extended time allocation for oral presentation. The applications are due October 11, 2024, and should be sent to the program chair of the meeting, Sang Soo Lee, by email at sslee@anl.gov.

Symposium in Honor of Prof. Janet Hering, 2025 Geochemistry Medal Recipient

Organizers: Yuanzhi Tang (Georgia Tech), Chen Zhu (Indiana Univ.), Daniel Giammar (Washington Univ. St. Louis), James D. Kubicki (Univ. Texas El Paso), Sang Soo Lee (Argonne Nat’l Lab)

Cosponsor: n/a

This symposium seeks to receive contributed submissions to honor the scientific achievement of Prof. Janet Hering, the Geochemistry Medal Award recipient.

Broadening Participation in Geochemistry: Bridging People, Science & Policy to Tackle Community, Regional & Global Issues that Affect Our Planet

Organizers: Ian C. Bourg (Princeton Univ.), Lynn E. Katz (Univ. Texas), Matthew R. Landsman (Lawrence Berkeley Nat’l Lab.), Lewis Stetson Rowles (Georgia Southern Univ.)

Cosponsor: n/a

Geochemistry applies chemistry in an attempt to explain complex natural systems; geochemists are often responsible for improving our understanding of the natural world and using that understanding to protect the planet. These larger scale, complex problems require a diverse community of scientists, policy experts, and local, regional and international stakeholders. This session is dedicated to recognizing the importance of diversity and outreach across the field of geochemistry with focus on bridging people and science to communities.

The first part of this session will honor researchers and scientists from diverse backgrounds or those who have been champions for diversity in the field by reducing and eliminating bias and discrimination. Invited speakers will share experiences and challenges from their careers along with their vision for cultivating diversity, inclusion, and equity. The second part of this session will showcase research on geochemistry in historically marginalized communities. Of particular interest are studies focused on how geochemical phenomena and anthropogenic contamination have impacted humans or the environment and how interactions among scientists, policy experts and stakeholders have helped to create sustainable solutions to regional and global environmental issues and resource acquisition.

Chemistry Under Nano-scale Confinement

Organizers: Anthony Pablo Baldo (Sandia Nat’l Lab.), Bidemi Tokunbo Fashina (Sandia Nat’l Lab.), Luis Ruiz Pestana (Univ. Miami)

Cosponsor: PHYS

Interfacial chemistry has been studied for centuries. However, it has been gradually recognized that the well-studied and understood chemical and physical properties of the surface-liquid interfaces change when confined (e.g., aqueous solution confined by surfaces). Hence, the existing knowledge on unconfined interfacial systems is not always directly transferrable to nanoscale confined systems. For example, the chemical properties (e.g., coordination chemistry, dielectric properties, nucleation and other phase changes) and biological processes (e.g., ion transport, and annealing in DNA) are dependent on the environment–confined or unconfined. Confinement additionally introduces a higher surface-to-volume ratio where interfacial effects become more relevant. To these ends, surface chemistry and termination, the presence of electrolytes, pH, and temperature, for example, must all be considered to understand chemistry in nanoconfined systems. The understanding of the reactivity of nanoconfined systems is important in separation science, critical material recovery, nano-catalysis, nuclear waste storage, understanding geochemical cycling, etc. Nanoconfined systems are ubiquitous from naturally confined systems, layered and modulated clay minerals, zeolites, nano-porous sedimentary rocks, and nano-cracks in soil/rock grains, etc. to synthetic confined systems such as carbon nanotubes, mesoporous oxides, nano-porous ceramic membranes, nanosensors, etc. The understanding of the reactivity and properties of confined systems remains poorly understood. We invite contributions that further our understanding of interfacial and non-interfacial chemistry under nano-confinement. The topics to be covered in this session include, but are not limited to: (1) interfacial reactivity at nanoconfined surfaces and in nanopores; (2) nanoconfinement effects on electron transfer; (3) nanoconfinement phenomena that can be traced to the field-scale; (4) dissolution, nucleation, and crystal growth under nanoconfinement; (5) nanoconfinement effects on reaction thermodynamics and kinetics; (6) nanoscale confinement effects on dynamics and structure of molecules; (7) novel experimental and computational methods for studying nanoconfined surfaces and solutions; (8) transport properties within nanopores; (9) properties of nano-porous materials at the mesoscale.

Environmental Radiochemistry

Organizers: Julia Neumann (Argonne Nat’l Lab.), Sarah A. Saslow (Pacific Northwest Nat’l Lab.)

Joint Sponsor: NUCL

Cosponsor: ENVR

Understanding the mobility of radionuclides and heavy metals in nature plays a pivotal role in developing appropriate remediation strategies for these (radioactive) pollutants. This session will highlight recent scientific advancements and challenges for understanding the physicochemical processes that control the fate, transport, and remediation of radionuclides and heavy metals in various environmental compartments. Contributions focused on elucidating processes relevant to (1) reactivity at mineral/water interfaces, including adsorption and desorption, (2) radionuclide/heavy metal incorporation into mineral phases and/or assemblages, (3) redox chemistry, (4) radionuclide/heavy metal speciation, (5) colloid formation and transport, and (6) radionuclide/heavy metal immobilization by remediation technologies are of interest to this session. Exploring and predicting the behavior of radionuclides and heavy metals under the complex chemistries found in nature are also of interest, e.g., the effects of co-mingled competing contaminants and local biogeochemistry. By fostering interdisciplinary dialogue among experts from different fields, spanning computational to experimental research at molecular to field scales, this session aims to advance our collective understanding of environmental radiochemistry and promote sustainable solutions for managing radioactive contamination worldwide.

Frontiers in Analytical and Computational Geochemistry

Organizers: Sharon Bone (SLAC Nat’l Accelerator Lab.), Ian C. Bourg (Princeton Univ.), Si Athena Chen (Oak Ridge Nat’l Lab.), Kideok D. Kwon (Kangwon Nat’l Univ., Korea), Sang Soo Lee (Argonne Nat’l Lab)

Cosponsor: COMP, ANYL

This session aims to highlight recent progress in the development and application of high-level theories and state-of-the-art methodologies to unravel novel understanding of complex geochemical processes. The session specifically focuses on in-situ and operando studies of geochemical systems, leveraging innovative (multimodal) spectroscopic, scattering, and imaging techniques, along with theoretical analysis using supercomputing and machine learning capabilities. Topics of interest include but are not limited to: (1) Bridging the gap between experiments and simulations; (2) Visualization of chemical and structural complexities; (3) Multiscale characterization of geological materials and interfaces; and (4) New algorithms and data process schemes to enhance the integration and analysis of complex geochemical datasets.

Fundamentals of Structure and Reactivity at Mineral-Water Interfaces

Organizers: Jacquelyn N. Bracco (City University, New York), Benjamin A. Legg (Pacific Northwest Nat’l Lab), Thomas Underwood (Pacific Northwest Nat’l Lab)

Cosponsor: ENVR

Geochemical reactions at mineral–water interfaces play a critical role in determining various micro- and macroscopic processes in natural environments, including contaminant transport, rock weathering, and change in porosity and permeability in porous media. Understanding these processes requires characterization of interfacial structure and reactivity at the molecular scale. This session will highlight recent experimental and computation research on geochemical interfacial systems covering from ideal single-crystal surfaces to complex environmental nanoparticles and porous media. The topics of interest in this session include, but are not limited to: (1) Surface structure and chemistry of minerals and nanoparticles; (2) Adsorption/desorption thermodynamics and kinetics; (3) Mineral dissolution and nucleation/growth; (4) Surface mediated redox reactions; (5) Multi-scale nature of mineral–water/rock–water interfaces in porous media; (6) Geochemical interfaces in extreme environments; (7) Development of new computational and experimental methods for interface research. We encourage contributions from a broad range of scientific disciplines that highlight advances in experimental, computational, and theoretical designs to bridge observations over a wide range of temporal and spatial scales.

Geochemical Pathways for Carbon Capture, Removal, Utilization, and Storage: Laboratory to Field

Organizers: Greeshma Gadikota (Cornell Univ.), Erika La Plante (Univ. California, Davis), John Loring (Pacific Northwest Nat’l Lab), Juliane Weber (Oak Ridge Nat’l Lab)

Cosponsor: I&EC, ENVR, COLL

Capture and sequestration of CO2 are considered the most feasible long-term strategies to address climate challenges caused by anthropogenic carbon dioxide emissions. Understanding physicochemical interactions between geologic materials and carbon-containing media across wide spatial and temporal scales is needed for large-scale deployment of cost-effective technologies to meet climate mitigation targets. This session will be a cross-disciplinary discussion that spans fundamental science of CO2-related geochemical processes and practical applications for the development of the materials and technologies for CO2 sequestration. We are seeking abstracts on topics including but not limited to: (1) Capture, conversion, and sequestration of CO2 using geo- and geo-inspired materials; (2) Geological CO2 sequestration by mineral carbonation, solubility, and physical trapping; (3) Enhanced weathering; (4) Critical element recovery with concurrent CO2 storage; (5) Effect of confinement on CO2-containing fluids; (6) Multiscale modeling and experimentation of the carbonation kinetics and dynamics of carbon-related chemical reactions; (7) Direct air capture via mineral looping and ocean-based CO2 removal techniques. We welcome experimental, theoretical and field investigations, including research of new material development and monitoring techniques for lab- or field-scale applications.

Geochemical Processes and Energy in Subsurface Environments

Organizers: Lawrence M. Anovitz (Oak Ridge Nat’l Lab), Ke Yuan (Oak Ridge Nat’l Lab)

Cosponsor: n/a

Subsurface environments play a crucial role in energy production and waste storage. Utilizing subsurface space for clean energy production and carbon sequestration has become a key strategy for achieving a carbon-free economy. Despite significant advancements in understanding chemical and chemically induced physical processes (chemomechanics) through in situ time-resolved techniques and computational simulations, many critical questions and challenges remain. This session highlights recent advances in experimental and computational methods that enhance our understanding of reactions in subsurface environments. The topics to be covered in this session include but are not limited to: Origin of geologic H2; Geothermal energy production; Nucleation, growth and multiphase reaction; Water/gas/solid interfaces; Underground storage of H2 and CO2; Underground gravity energy storage (air/CAES, compressed fluids); Radioactive waste disposal; Permeability manipulation; Fracture initiation/seismic effects; Caprock efficiency and improvement.

Geochemical, Environmental and Sociotechnical Implications of Mining

Organizers: Laura Bilenker (Auburn Univ.), Mathias Burisch (Colorado School of Mines), Andrew Martin (Univ. Nevada, Las Vegas), Adam C. Simon (Univ. of Michigan)

Cosponsor: ENVR, ENFL

Achieving the United Nations Sustainable Development Goals and climate provisions of legislation including the U.S. Inflation Reduction Act that calls for significant increases in renewable energy infrastructure will require mining mineral resources at an unprecedented scale and speed. This pressure to diminish CO2 emissions, and to also find and produce minerals will be enormous. We must appreciate that mineral production has the potential to adversely affect the environment and communities, and there is a high degree of skepticism on the topic of responsible mining. This means that the minerals and energy sectors face greater challenges than ever before. This session focuses on 1) the formation of mineral resources and the use of this knowledge for responsible resource exploration and extraction, (2) new and less invasive approaches for the exploration and extraction of raw materials, 3) innovative approaches to geometallurgy, mineral processing, and the recycling of end-products containing metals and minerals to develop circular economies, and 4) securing supplies of industrially important, critical, and strategic metals, and. industrial minerals that are subject to global or regional supply disruption. We welcome abstract submission that cover any of these topics, including field studies (terrestrial, marine, planetary), biogeochemical and geochemical characterization of mining sites and their associated waters, mineralogical and metallurgical investigations, as well as experimental, thermodynamic and modeling approaches to resource geochemistry and geology, and long-term monitoring programs, remote systems, and community-based monitoring.

Separation Science and Technologies for Critical Materials

Organizers: Eunhyea Chung (Seoul Nat’l Univ., Korea), Grant Johnson (Pacific Northwest Nat’l Lab.), Slawo Lomnicki (Louisiana State Univ.), Elias Nakouzi (Pacific Northwest Nat’l Lab.), Tanya Prozorov (Ames Nat’l Lab.)

Joint sponsor: ENVR

Cosponsor: ENFL

Critical materials like rare earth elements are increasingly needed for advanced electronics, clean energy, and defense-related technologies. Most of these materials are currently mined and extracted using energy- and chemical-intensive processes that generate environmentally harmful waste and carbon dioxide emissions. To establish a responsibly sourced and stable domestic supply chain for critical materials, it will be necessary not only to obtain these elements from primary ores but also to extract them from abundant unconventional feedstocks such as recycled electronics, produced waters, mine tailings, and geothermal brines. Transformative advances in critical material extraction and separation will be enabled by an improved fundamental understanding of 1) interfacial interactions, 2) the enthalpy and entropy changes associated with demixing transitions, 3) the coupling of reactivity and separations, 4) new synthesis techniques and the degradation of materials over time, 5) how external forces and fields may be leveraged to control transport and reactivity, and 6) supply chains to predict what elements will become critical in the future. Disruptive advances in separations will also require translating this fundamental scientific understanding into scalable and economically viable technologies. This symposium will provide a forum for chemists, chemical engineers, and materials scientists to learn about and discuss the latest developments in critical material separations, engineering, and technology. The forum's broad fundamental and applied scope is intended to attract leading researchers, early career scientists, and engineers from academia, national laboratories, and industry.

Sun, Sand, and Sustainability: Early Career Researchers Forging Advances in Marine Chemistry

Organizers: Julian Bobb (Virginia Commonwealth Univ.), Bhavya Singhi (Zeus Industrial Products, Inc.)

Joint sponsor: YCC

Cosponsor: ENVR, ANYL

This symposium is open to all topics of marine chemistry, geochemistry, environmental chemistry, and closely related fields. We are especially looking for presentations from early career researchers who are currently in school or within 10 years of starting their careers. This session aims to publicize innovative research findings geared towards addressing the impact of human and environmental factors on oceans and marine ecosystems, and the strategies being explored to mitigate those effects.

General Geochemistry

Organizer: Sang Soo Lee (Argonne Nat’l Lab.), Ian C. Bourg (Princeton Univ.)

Cosponsor: n/a

This session is open to any papers related to the broad field of geochemistry. We are especially looking for presentations in areas that broaden our division both in terms of the composition and diversity of the membership as well as the breadth of topics explored. In addition, we are seeking presentations that address teaching pedagogy and novel approaches to engaging students at all levels.