Search

Your search keyword '"Zimmerman JB"' showing total 157 results
Start Over Author "Zimmerman JB"
157 results on '"Zimmerman JB"'

1. Mapping the computational similarity of individual neurons within large-scale ensemble recordings using the SIMNETS analysis framework

Author

Hynes Jb, John P. Donoghue, David M. Brandman, Carlos E. Vargas-Irwin, and Zimmerman Jb

Subjects
Similarity (geometry), Computer science, business.industry, Spike train, Dimensionality reduction, Pattern recognition, Field (computer science), medicine.anatomical_structure, Encoding (memory), Scalability, medicine, Neuron, Artificial intelligence, business
Abstract

The expansion of large-scale neural recording capabilities has provided new opportunities to examine multi-scale cortical network activity at single neuron resolution. At the same time, the growing scale and complexity of these datasets introduce new conceptual and technical challenges beyond what can be addressed using traditional analysis techniques. Here, we present SIMNETS, a mathematically rigorous and efficient unsupervised relational analysis framework designed to generate intuitive, low-dimensional neuron maps that support a multi-scale view of the computational similarity (CS) relations among individual neurons. The critical innovation is the use of a novel measure of computational similarity that is based on comparing the intrinsic structure of latent spaces representing the spiking output of individual neurons. We use three publicly available neural population test datasets from the visual, motor, and hippocampal CA1 brain regions to validate the SIMNETS framework and demonstrate how it can be used to identify putative subnetworks (i.e., clusters of neurons with similar computational properties). Our analysis pipeline includes a novel statistical test designed to evaluate the likelihood of detecting spurious neuron clusters to validate network structure results. The SIMNETS framework can facilitate linking computational geometry representations across scales, from single neurons to subnetworks, within large-scale neural recording data.

Published
2018

3. Delivering sustainable infrastructure that supports the urban built environment

Author

Boyle, C, Mudd, G, Mihelcic, JR, Anastas, P, Collins, T, Culligan, P, Edwards, M, Gabe, J, Gallagher, P, Handy, S, Kao, JJ, Krumdieck, S, Lyles, LD, Mason, I, McDowall, R, Pearce, A, Riedy, C, Russell, J, Schnoor, JL, Trotz, M, Venables, R, Zimmerman, JB, Fuchs, V, Miller, S, Page, S, Reeder-Emery, K, Boyle, C, Mudd, G, Mihelcic, JR, Anastas, P, Collins, T, Culligan, P, Edwards, M, Gabe, J, Gallagher, P, Handy, S, Kao, JJ, Krumdieck, S, Lyles, LD, Mason, I, McDowall, R, Pearce, A, Riedy, C, Russell, J, Schnoor, JL, Trotz, M, Venables, R, Zimmerman, JB, Fuchs, V, Miller, S, Page, S, and Reeder-Emery, K

Published
2010

4. Relationship between physical activity level, telomere length, and telomerase activity.

Author

Ludlow AT, Zimmerman JB, Witkowski S, Hearn JW, Hatfield BD, and Roth SM

Abstract

PURPOSE: The purpose of this study was to examine the relationship of exercise energy expenditure (EEE) with both telomere length and telomerase activity in addition to accounting for hTERT C-1327T promoter genotype. METHODS: Sixty-nine (n = 34 males; n = 35 females) participants 50-70 yr were assessed for weekly EEE level using the Yale Physical Activity Survey. Lifetime consistency of EEE was also determined. Subjects were recruited across a large range of EEE levels and separated into quartiles: 0-990, 991-2340, 2341-3540, and >3541 kcal x wk(-1). Relative telomere length and telomerase activity were measured in peripheral blood mononuclear cells (PBMC). RESULTS: The second EEE quartile exhibited significantly longer telomere lengths [1.12 +/- 0.03 relative units (RU)] than both the first and fourth EEE quartiles (0.94 +/- 0.03 and 0.96 +/- 0.03 RU, respectively; P < 0.05) but was not different from the third quartile. Telomerase activity was not different among the EEE quartiles. An association was observed between telomerase enzyme activity and hTERT genotype with the TT genotype (1.0 x 10(-2) +/- 4.0 x 10(-3) attomoles (amol) per 10,000 cells; n = 19) having significantly greater telomerase enzyme activity than both the CT (1.3 x 10(-3) +/- 3.2 x 10(-3); n = 30) and CC groups (5.0 x 10(-4) +/- 3.9 x 10(-3); n = 20; P = 0.01). CONCLUSION: These results indicate that moderate physical activity levels may provide a protective effect on PBMC telomere length compared with both low and high EEE levels. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

6. Marketing for Sensa: A novel "zero nicotine vapor product" from a major tobacco company.

Author

Robichaud MO, Talbot EM, Ganz O, Mercincavage M, Erythropel HC, Zimmerman JB, Jabba SV, Jordt SE, and Delnevo CD

Abstract

On July 1, 2024, RJ Reynolds Vapor Company (RJRVC) introduced Sensa, the first disposable "zero nicotine vapor product" from a major tobacco company. Sensa sold more than 100,000 units as of September 10, 2024 and has been marketed through several channels. Direct-mail and magazine ads appeal to consumers' senses (e.g., "awaken your senses") and showcase Sensa's six flavor options: Berry Fusion, Berry Watermelon Fusion, Blueberry Frost, Mint Frost, Passionfruit Frost, and Watermelon Frost. Our chemical characterization of all Sensa flavors (except Berry Watermelon Fusion) found neotame (a potent artificial sweetener) and WS-23 (a synthetic coolant) in all samples, while all "Frost" flavors tested contained another synthetic coolant, WS-3. Although RJRVC states that Sensa is for "adult tobacco and vapor consumers," Sensa's resemblance to popular disposable vaping devices and youth-appealing flavors raise concerns about Sensa's appeal to young people, and limited regulations for "zero nicotine" products introduce uncertainty about product safety., Competing Interests: Declarations Additional Declarations: The authors declare no competing interests.

Published
2024
Full Text
View/download PDF

7. Variability in Constituents of E-Cigarette Products Containing Nicotine Analogues.

Author

Erythropel HC, Jabba SV, Silinski P, Anastas PT, Krishnan-Sarin S, Zimmerman JB, and Jordt SE

Subjects
Vaping adverse effects, United States Food and Drug Administration legislation & jurisprudence, United States Food and Drug Administration standards, United States, Consumer Product Safety legislation & jurisprudence, Consumer Product Safety standards, Liquid Chromatography-Mass Spectrometry, Electronic Nicotine Delivery Systems standards, Nicotine analogs & derivatives, Nicotine analysis, Tobacco Products analysis, Tobacco Products legislation & jurisprudence, Tobacco Products standards
Published
2024
Full Text
View/download PDF

9. Elucidating supercritical fluid extraction of fucoxanthin from algae to enable the integrated biorefinery.

Author

Lane MKM, Gilcher EB, Ahrens-Víquez MM, Pontious RS, Wyrtzen NE, and Zimmerman JB

Subjects
Ethanol chemistry, Carbon Dioxide chemistry, Solvents chemistry, Diatoms chemistry, Chlorophyll, Biotechnology methods, Chromatography, Supercritical Fluid methods, Xanthophylls isolation & purification, Xanthophylls chemistry, Microalgae chemistry
Abstract

The emerging nutraceutical, fucoxanthin, shows promise as a high-value product to enable the integrated biorefinery. Fucoxanthin can be extracted from algae through supercritical fluid extraction (SFE), but literature does not agree on optimal extraction conditions. Here, a statistical analysis of literature identifies supercritical carbon dioxide (scCO 2 ) density, ethanol cosolvent amount, and polarity as significant predictors of fucoxanthin yield. Novel SFE experiments are then performed using a fucoxanthin standard, describing its fundamental solubility. These experiments establish solvent system polarity as the key knob to tune fucoxanthin recovery from 0% to 100% and give specific operating conditions for targeted fucoxanthin extraction.Further experiments compare extractions on fucoxanthin standard with extractions from Phaeodactylum tricornutum microalgae to elucidate the effect of the algae matrix. Results show selectivity of fucoxanthin over chlorophyll in scCO 2 microalgae extractions that was not seen in extractions with ethanol, indicating a benefit of scCO 2 to design selective extraction schemes., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Julie B. Zimmerman reports financial support was provided by Gordon and Betty Moore Foundation. Mary Kate M. Lane reports financial support was provided by National Science Foundation Division of Graduate Education. Mary Kate M. Lane reports equipment, drugs, or supplies was provided by NOAA Fisheries Milford Laboratory. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
Full Text
View/download PDF

10. Multiplexable and Scalable Aqueous Synthesis Platform for Oleate-Based, Bilayer-Coated Gold Nanoparticles.

Author

Backhaus A, Albrecht J, Alzhanova G, Long A, Arnold W, Lee J, Tse HY, Su TT, Cruz-Gomez S, Lee SSS, Menges F, Parent LR, Ratjen L, Burtness B, Fortner JD, and Zimmerman JB

Subjects
Water chemistry, Lipid Bilayers chemistry, Gold chemistry, Metal Nanoparticles chemistry, Oleic Acid chemistry
Abstract

Despite gold-based nanomaterials having a unique role in nanomedicine, among other fields, synthesis limitations relating to reaction scale-up and control result in prohibitively high gold nanoparticle costs. In this work, a new preparation procedure for lipid bilayer-coated gold nanoparticles in water is presented, using sodium oleate as reductant and capping agent. The seed-free synthesis not only allows for size precision (8-30 nm) but also remarkable particle concentration (10 mm Au). These reaction efficiencies allow for multiplexing and reaction standardization in 96-well plates using conventional thermocyclers, in addition to simple particle purification via microcentrifugation. Such a multiplexing approach also enables detailed spectroscopic investigation of the nonlinear growth process and dynamic sodium oleate/oleic acid self-assembly. In addition to scalability (at gram-level), resulting gold nanoparticles are stable at physiological pH, in common cell culture media, and are autoclavable. To demonstrate the versatility and applicability of the reported method, a robust ligand exchange with thiolated polyethylene glycol analogues is also presented., (© 2024 Wiley‐VCH GmbH.)

Published
2024
Full Text
View/download PDF

11. Assessing the Progress toward a Water-Efficient Economy in the United States from 1985 to 2015.

Author

Du Y, Wang R, and Zimmerman JB

Subjects
United States, Agriculture economics, Water, Sustainable Development, Water Supply
Abstract

United Nations Sustainable Development Goal 6 tackles the long-neglected economic dimension of water utilization by monitoring nations' water use efficiency (WUE). However, it is imperative to emphasize the need for consistent spatial-temporal subnational WUE estimates, rather than relying solely on recent national trends, which can obscure crucial water use concerns and improvement opportunities. Here, a time series analysis of national, state, and sectoral (e.g., industrial, service, and agriculture) WUE from 1980 to 2015 was developed by compiling the most comprehensive and disaggregated water and economic data from 3243 US counties and 50 US states. The US total WUE increased by 181% from 16.2 (1985) to 45.6 USD/m 3 (2015), driven by service sector WUE enhancements. The increased industry and service WUEs in most states were more strongly correlated with decreased per capita water withdrawal than with economic growth. Simultaneously, reductions in agriculture WUE were observed in 18 states potentially because of the complicated interaction of diverse factors specific to local communities. Expanding WUE gaps between affluent and less affluent states, and persisting WUE gaps between water-abundant andwater-scarce states highlight the need to advance policies to support under-resourced communities in effective water planning and water pricing for advancing equitable development.

Published
2024
Full Text
View/download PDF

12. High Variability in Nicotine Analog Contents, Misleading Labeling, and Artificial Sweetener in New E-Cigarette Products Marketed as "FDA-Exempt".

Author

Erythropel HC, Jabba SV, Silinski P, Anastas PT, Krishnan-Sarin S, Zimmerman JB, and Jordt SE

Abstract

The recent introduction of electronic cigarette products containing a synthetic nicotine analog, 6-methyl nicotine (6MN), challenges FDA's tobacco regulatory authority. A similar strategy is pursued by vendors of recently introduced e-cigarette liquids containing nicotinamide (NA), marketed as 'Nixotine' or 'Nixamide'. Compared to nicotine, 6MN is pharmacologically more potent at nicotinic receptors, and more toxic, raising concerns about increased addictiveness and adverse effects. Here, combinations of gas chromatography, high performance liquid chromatography and mass spectrometry were used to determine nicotine analogs, flavor and sweetener contents of e-cigarette liquids of the brands "SpreeBar" and ECBlend "Nixotine" products. All SpreeBar products, labelled as containing 5% 6-methyl nicotine, contained only 0.61-0.64% 6-methylnicotine, while "Nixotine" samples contained 7-46% less of the declared nicotinamide contents. Although "Nixotine" product labels did not list 6MN as an ingredient, small amounts of 6-methyl nicotine were detected. All 'SpreeBar' samples contained the artificial sweetener neotame (0.20-0.86μg/mg). Results identified significant discrepancies between declared and measured constituents of e-cigarette products containing nicotine alternatives. The discrepancy is misleading for consumers and raises concerns about production errors. 'SpreeBar' products also contained neotame, a high-intensity sweetener with high heat stability, likely increasing appeal to young and first-time users. Novel e-cigarette products with misleading labels containing nicotine analogs instead of nicotine on the US market is concerning and should be urgently addressed by lawmakers and regulators., Competing Interests: Conflict of Interest Disclosures: The authors declare no conflicts of interest.

Published
2024
Full Text
View/download PDF

13. Cardiovascular Health Effects and Synthetic Cooling Agents in E-cigarettes Labeled as 'clear' Marketed in Massachusetts After the Tobacco Product Flavoring Ban.

Author

Minetti ET, Erythropel HC, Keith R, Davis DR, Zimmerman JB, Krishnan-Sarin S, and Hamburg NM

Abstract

Introduction: Massachusetts (MA) enacted statewide regulation on all flavored tobacco products in June 2020. Thereafter, electronic cigarettes (e-cigarettes) labeled 'clear' emerged on the market. We aimed to combine cardiovascular health effects with chemical analysis of 'clear' e-cigarettes., Methods: We measured acute changes in blood pressure and heart rate following a 10-minute structured use of participants' own e-cigarette, comparing 'clear' e-cigarette users with other flavored e-cigarette users and non-users. Chemical characterization and quantification of relevant flavorings and cooling agents (WS-3, WS-23) of 19 'clear'-labeled disposable e-cigarette liquids was carried out by GC/MS., Results: After the ban, participants that used 'clear' labeled e-cigarettes increased from 0% to 21%. Increase in diastolic blood pressure and heart rate was significantly greater in 'clear' e-cigarettes users (n=22) compared to both non-'clear' flavored e-cigarette users (n=114) and non-users (n=72). We saw similar results in heart rate when comparing Juul e-cigarette and 'clear' users; Juul was used as a reference as synthetic coolants WS-3 or WS-23 were not detected in these.All (19/19) 'clear' e-liquids were found to contain synthetic cooling agents WS-23 and/or WS-3, menthol (18/19), as well as other flavorings (12/19)., Discussion: The detected presence of menthol alongside other flavorings in tested 'clear' products is a direct violation of the MA flavored tobacco product regulation, warranting stricter monitoring for new products and constituents. 'clear' e-cigarette use led to greater hemodynamic effects compared to other flavored e-cigarettes and Juul, which raises questions about the effect of cooling agents on users.

Published
2024
Full Text
View/download PDF

14. Kraft Lignin-Derived Microporous Nitrogen-Doped Carbon Adsorbent for Air and Water Purification.

Author

Tkachenko O, Nikolaichuk A, Fihurka N, Backhaus A, Zimmerman JB, Strømme M, and Budnyak TM

Abstract

The study presents a streamlined one-step process for producing highly porous, metal-free, N-doped activated carbon (N-AC) for CO 2 capture and herbicide removal from simulated industrially polluted and real environmental systems. N-AC was prepared from kraft lignin─a carbon-rich and abundant byproduct of the pulp industry, using nitric acid as the activator and urea as the N-dopant. The reported carbonization process under a nitrogen atmosphere renders a product with a high yield of 30% even at high temperatures up to 800 °C. N-AC exhibited a substantial high N content (4-5%), the presence of aliphatic and phenolic OH groups, and a notable absence of carboxylic groups, as confirmed by Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, and Boehm's titration. Porosity analysis indicated that micropores constituted the majority of the pore structure, with 86% of pores having diameters less than 0.6 nm. According to BET adsorption analysis, the developed porous structure of N-AC boasted a substantial specific surface area of 1000 m 2 g -1 . N-AC proved to be a promising adsorbent for air and water purification. Specifically, N-AC exhibited a strong affinity for CO 2 , with an adsorption capacity of 1.4 mmol g -1 at 0.15 bar and 20 °C, and it demonstrated the highest selectivity over N 2 from the simulated flue gas system (27.3 mmol g -1 for 15:85 v/v CO 2 /N 2 at 20 °C) among all previously reported nitrogen-doped AC materials from kraft lignin. Moreover, N-AC displayed excellent reusability and efficient CO 2 release, maintaining an adsorption capacity of 3.1 mmol g -1 (at 1 bar and 25 °C) over 10 consecutive adsorption-desorption cycles, confirming N-AC as a useful material for CO 2 storage and utilization. The unique cationic nature of N-AC enhanced the adsorption of herbicides in neutral and weakly basic environments, which is relevant for real waters. It exhibited an impressive adsorption capacity for the herbicide 2,4-dichlorophenoxyacetic acid (2,4-D) at 96 ± 6 mg g -1 under pH 6 and 25 °C according to the Langmuir-Freundlich model. Notably, N-AC preserves its high adsorption capacity toward 2,4-D from simulated groundwater and runoff from tomato greenhouse, while performance in real samples from Fyris river in Uppsala, Sweden, causes a decrease of only 4-5%. Owing to the one-step process, high yield, annual abundance of kraft lignin, and use of environmentally friendly activating agents, N-AC has substantial potential for large-scale industrial applications.

Published
2024
Full Text
View/download PDF

21. Membrane Functionalization Approaches toward Per- and Polyfluoroalkyl Substances and Selected Metal Ion Separations.

Author

Léniz-Pizarro F, Rudel HE, Briot NJ, Zimmerman JB, and Bhattacharyya D

Abstract

Adsorption and ion exchange technologies are two of the most widely used approaches to separate pollutants from water; however, their intrinsic diffusion limitations continue to be a challenge. Pore functionalized membranes are a promising technology that can help overcome these challenges, but the extents of their competitive benefits and broad applicability have not been systematically evaluated. Herein, three types of adsorptive/ion exchange (IX) polymers containing strong/weak acid, strong base, and iron-chitosan complex groups were synthesized in the pores and partially on the surface of microfiltration (MF) membranes and tested for the removal of organic and inorganic cations and anions from water, including arsenic, per- and polyfluoroalkyl substances (PFAS), and calcium (hardness). When directly compared with beads (0.5-6 mm) and crushed resins (0.05 mm), adsorptive/IX pore-functionalized membranes demonstrated an increased relative sorption capacity, up to 2 orders of magnitude faster kinetics and the ability to regenerate up to 70-100% of their capacity while concentrating the initial solution concentration up to 12 times. The simple and versatile synthesis approach used to functionalize membranes, notably independent of the polymer type of the MF membrane, utilized pores throughout the entire cross section of the membrane to immobilize the polymers that contain the functional groups. Utilizing the pore volume of commercial membranes (6-112 mL/m 2 ), the scientific weight capacity of the polymer (3.1-11.5 mequiv/g), and the synthesis conditions (e.g., monomer concentration), the theoretical adsorption/IX capacities per area of the membranes were calculated to be as high as 550 mequiv/m 2 , substantially higher than the 175 mequiv/m 2 value needed to compete with commercially available IX resins. This work therefore shows that pore functionalized membranes are a promising path to tackle water contamination challenges, lowering separation diffusion limitations.

Published
2023
Full Text
View/download PDF

22. Toward Property-Based Regulation.

Author

Muellers TD, Petrovic PV, Zimmerman JB, and Anastas PT

Abstract

An expanding web of adverse impacts on people and the environment has been steadily linked to anthropogenic chemicals and their proliferation. Central to this web are the regulatory structures intended to protect human and environmental health through the control of new molecules. Through chronically insufficient and inefficient action, the current chemical-by-chemical regulatory approach, which considers regulation at the level of chemical identity, has enabled many adverse impacts to develop and persist. Recognizing the link between fundamental physicochemical properties and hazards, we describe a new paradigm─property-based regulation. By regulating physicochemical properties, we show how governments can delineate and enforce safe chemical spaces, increasing the scalability of chemical assessments, reducing the time and resources to regulate a substance, and providing transparency for chemical designers. We highlight sparse existing property-based approaches and demonstrate their applicability using bioaccumulation as an example. Finally, we present a path to implementation in the United States, prescribing roles and steps for government, nongovernmental organizations, and industry to accelerate this transition, to the benefit of all.

Published
2023
Full Text
View/download PDF

23. Elucidating the Role of Capping Agents in Facet-Dependent Adsorption Performance of Hematite Nanostructures.

Author

Rudel HE and Zimmerman JB

Abstract

Organic capping agents are a ubiquitous and crucial part of preparing reproducible and homogeneous batches of nanomaterials, particularly nanocrystals with well-defined facets. Despite studies reporting surface ligands (e.g., capping agents) having a non-negligible role in catalytic behavior, their impact is less understood in contaminant adsorption, an important consideration given their potential to obfuscate facet-dependent trends in performance. To ascribe observed behaviors to the facet or the ligand, this report evaluates the impact of poly( N -vinyl-2-pyrrolidone) (PVP), a commonly utilized capping agent, on the adsorption performance of nanohematite particles of varying prevailing facet in the removal of selenite (Se(IV)) as a model system. The PVP capping agent reduces the available surface area for contaminant binding, thus resulting in a reduction in overall Se(IV) adsorbed. However, accounting for the effects of surface area, {012}-faceted nanohematite demonstrates a significantly higher sorption capacity for Se(IV) compared with that of {001}-faceted nanohematite. Notably, chemical treatment is minimally effective in removing strongly bound PVP, indicating that complete removal of surface ligands remains challenging.

Published
2023
Full Text
View/download PDF

24. Synthetic cooling agent in oral nicotine pouch products marketed as 'Flavour-Ban Approved'.

Author

Jabba SV, Erythropel HC, Woodrow JG, Anastas PT, O'Malley S, Krishnan-Sarin S, Zimmerman JB, and Jordt SE

Abstract

Background: US sales of oral nicotine pouches (ONPs) have rapidly increased, with cool/mint-flavoured ONPs the most popular flavour category. Restrictions on sales of flavoured tobacco products have either been implemented or proposed by several US states and localities. Zyn, the most popular ONP brand, is marketing Zyn Chill and Zyn Smooth as 'Flavour-Ban Approved' or 'unflavoured', probably to evade flavour bans and increase product appeal. At present, it is unclear whether these ONPs are indeed free of flavour additives that can impart pleasant sensations such as cooling., Methods: Sensory cooling and irritant activities of 'Flavour-Ban Approved' Zyn ONPs, Chill and Smooth, along with minty varieties (Cool Mint, Peppermint, Spearmint, Menthol), were analysed by Ca 2+ microfluorimetry in HEK293 cells expressing the cold/menthol (TRPM8) or menthol/irritant receptor (TRPA1). Flavour chemical content of these ONPs was analysed by gas chromatography/mass spectrometry., Results: Zyn Chill ONP extracts robustly activated TRPM8, with much higher efficacy (39%-53%) than the mint-flavoured ONPs. In contrast, mint-flavoured ONP extracts elicited stronger TRPA1 irritant receptor responses than Chill extracts. Chemical analysis demonstrated that Chill exclusively contained WS-3, an odourless synthetic cooling agent, while mint-flavoured ONPs contained WS-3 together with mint flavourants., Conclusions: ONP products marketed as 'Flavour-Ban Approved' or 'unflavoured' contain flavouring agents, proving that the manufacturer's advertising is misleading. Synthetic coolants such as WS-3 can provide a robust cooling sensation with reduced sensory irritancy, thereby increasing product appeal and use. Regulators need to develop effective strategies for the control of odourless sensory additives used by the industry to bypass flavour bans., Competing Interests: Competing interests: Outside of the submitted work, SO'M reports being a member of the American Society of Clinical Psychopharmacology’s Alcohol Clinical Trials Initiative, supported by Alkermes, Dicerna, Ethypharm, Lundbeck, Mitsubishi Tanabe, Otsuka; consultant/advisory board member, Alkermes, Dicerna, Opiant; medication supplies, Novartis; DSMB member for National Institute on Drug Abuse Clinical Trials Network, Emmes and has been involved in a patent application with Novartis and Yale. The other authors have no disclosures to report., (© Author(s) (or their employer(s)) 2023. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2023
Full Text
View/download PDF

25. The legacy environmental footprints of manufactured capital.

Author

Wang R, Hertwich EG, Fishman T, Deetman S, Behrens P, Chen WQ, de Koning A, Xu M, Matus K, Ward H, Tukker A, and Zimmerman JB

Abstract

The foundations of today's societies are provided by manufactured capital accumulation driven by investment decisions through time. Reconceiving how the manufactured assets are harnessed in the production-consumption system is at the heart of the paradigm shifts necessary for long-term sustainability. Our research integrates 50 years of economic and environmental data to provide the global legacy environmental footprint (LEF) and unveil the historical material extractions, greenhouse gas emissions, and health impacts accrued in today's manufactured capital. We show that between 1995 and 2019, global LEF growth outpaced GDP and population growth, and the current high level of national capital stocks has been heavily relying on global supply chains in metals. The LEF shows a larger or growing gap between developed economies (DEs) and less-developed economies (LDEs) while economic returns from global asset supply chains disproportionately flow to DEs, resulting in a double burden for LDEs. Our results show that ensuring best practice in asset production while prioritizing well-being outcomes is essential in addressing global inequalities and protecting the environment. Achieving this requires a paradigm shift in sustainability science and policy, as well as in green finance decision-making, to move beyond the focus on the resource use and emissions of daily operations of the assets and instead take into account the long-term environmental footprints of capital accumulation.

Published
2023
Full Text
View/download PDF

26. Synthetic Cooling Agent and Candy Flavors in California-marketed "non-Menthol" Cigarettes.

Author

Jabba SV, Erythropel HC, Anastas PT, Zimmerman JB, and Jordt SE

Abstract

Rationale: The ban of menthol cigarettes is one of the key strategies to promote smoking cessation in the United States. Menthol cigarettes are preferred by young beginning smokers for smoking initiation. Almost 90% of African American smokers use menthol cigarettes, a result of decades-long targeted industry marketing. Several states and municipalities already banned menthol cigarettes, most recently California, effective on December 21, 2022. In the weeks before California's ban took effect, the tobacco industry introduced several "non-menthol" cigarette products in California, replacing previously mentholated brands. Here, we hypothesize that tobacco companies replaced menthol with synthetic cooling agents to create a cooling effect without using menthol. Similar to menthol, these agents activate the TRPM8 cold-menthol receptor in sensory neurons innervating the upper and lower airways., Methods: Calcium microfluorimetry in HEK293t cells expressing the TRPM8 cold/menthol receptors was used to determine sensory cooling activity of extracts prepared from these "non-menthol" cigarette brands, and compared to standard menthol cigarette extracts of the same brands. Specificity of receptor activity was validated using TRPM8-selective inhibitor, AMTB. Gas chromatography mass spectrometry (GCMS) was used to determine presence and amounts of any flavoring chemicals, including synthetic cooling agents, in the tobacco rods, wrapping paper, filters and crushable capsule (if present) of these "non-menthol" cigarettes., Results: Compared to equivalent menthol cigarette extracts, several California-marketed "non-menthol" cigarette extracts activated cold/menthol receptor TRPM8 at higher dilutions and with stronger efficacies, indicating substantial pharmacological activity to elicit robust cooling sensations. Synthetic cooling agent, WS-3, was detected in tobacco rods of several of these "non-menthol" cigarette brands. Crushable capsules added to certain "non-menthol" crush varieties contained neither WS-3 nor menthol but included several "sweet" flavorant chemicals, including vanillin, ethyl vanillin and anethole., Conclusion: Tobacco companies have replaced menthol with the synthetic cooling agent, WS-3, in California-marketed "non-menthol" cigarettes. WS-3 creates a cooling sensation similar to menthol, but lacks menthol's characteristic "minty" odor. The measured WS-3 content is sufficient to elicit cooling sensations in smokers, similar to menthol, that facilitate smoking initiation and act as a reinforcing cue. Regulators need to act quickly to prevent the tobacco industry from bypassing menthol bans by substituting menthol with synthetic cooling agents, and thereby thwarting smoking cessation efforts.

Published
2023
Full Text
View/download PDF

28. Selective Extraction of Critical Metals from Spent Lithium-Ion Batteries.

Author

Wang M, Liu K, Xu Z, Dutta S, Valix M, Alessi DS, Huang L, Zimmerman JB, and Tsang DCW

Subjects
Metals, Cobalt, Electric Power Supplies, Iron, Lithium, Recycling
Abstract

Selective and highly efficient extraction technologies for the recovery of critical metals including lithium, nickel, cobalt, and manganese from spent lithium-ion battery (LIB) cathode materials are essential in driving circularity. The tailored deep eutectic solvent (DES) choline chloride-formic acid (ChCl-FA) demonstrated a high selectivity and efficiency in extracting critical metals from mixed cathode materials (LiFePO 4 :Li(NiCoMn) 1/3 O 2 mass ratio of 1:1) under mild conditions (80 °C, 120 min) with a solid-liquid mass ratio of 1:200. The leaching performance of critical metals could be further enhanced by mechanochemical processing because of particle size reduction, grain refinement, and internal energy storage. Furthermore, mechanochemical reactions effectively inhibited undesirable leaching of nontarget elements (iron and phosphorus), thus promoting the selectivity and leaching efficiency of critical metals. This was achieved through the preoxidation of Fe and the enhanced stability of iron phosphate framework, which significantly increased the separation factor of critical metals to nontarget elements from 56.9 to 1475. The proposed combination of ChCl-FA extraction and the mechanochemical reaction can achieve a highly selective extraction of critical metals from multisource spent LIBs under mild conditions.

Published
2023
Full Text
View/download PDF

30. Microalgae Commercialization Using Renewable Lignocellulose Is Economically and Environmentally Viable.

Author

Wang X, Wang T, Zhang T, Winter LR, Di J, Tu Q, Hu H, Hertwich E, Zimmerman JB, and Elimelech M

Subjects
Lignin metabolism, Biofuels, Biomass, Carbon metabolism, Microalgae metabolism
Abstract

Conventional phototrophic cultivation for microalgae production suffers from low and unstable biomass productivity due to limited and unreliable light transmission outdoors. Alternatively, the use of a renewable lignocellulose-derived carbon source, cellulosic hydrolysate, offers a cost-effective and sustainable pathway to cultivate microalgae heterotrophically with high algal growth rate and terminal density. In this study, we evaluate the feasibility of cellulosic hydrolysate-mediated heterotrophic cultivation (Cel-HC) for microalgae production by performing economic and environmental comparisons with phototrophic cultivation through techno-economic analysis and life cycle assessment. We estimate a minimum selling price (MSP) of 4722 USD/t for producing high-purity microalgae through Cel-HC considering annual biomass productivity of 300 t (dry weight), which is competitive with the conventional phototrophic raceway pond system. Revenues from the lignocellulose-derived co-products, xylose and fulvic acid fertilizer, could further reduce the MSP to 2976 USD/t, highlighting the advantages of simultaneously producing high-value products and biofuels in an integrated biorefinery scheme. Further, Cel-HC exhibits lower environmental impacts, such as cumulative energy demand and greenhouse gas emissions, than phototrophic systems, revealing its potential to reduce the carbon intensity of algae-derived commodities. Our results demonstrate the economic and environmental competitiveness of heterotrophic microalgae production based on renewable bio-feedstock of lignocellulose.

Published
2023
Full Text
View/download PDF

32. Synthetic Cooling Agents in US-marketed E-cigarette Refill Liquids and Popular Disposable E-cigarettes: Chemical Analysis and Risk Assessment.

Author

Jabba SV, Erythropel HC, Torres DG, Delgado LA, Woodrow JG, Anastas PT, Zimmerman JB, and Jordt SE

Subjects
Flavoring Agents analysis, Humans, Menthol, Risk Assessment, Electronic Nicotine Delivery Systems, Tobacco Products
Abstract

Introduction: Menthol, through its cooling and pleasant sensory effects, facilitates smoking and tobacco product initiation, resulting in the high popularity of mint/menthol-flavored E-cigarettes. More recently, E-cigarette vendors started marketing synthetic cooling agents as additives that impart a cooling effect but lack a characteristic minty odor. Knowledge about content of synthetic coolants in US-marketed E-cigarette products and associated health risks is limited., Aims and Methods: E-liquid vendor sites were searched with the terms "koolada", "kool/cool", "ice", or WS-3/WS-23, denoting individual cooling agents, and relevant refill E-liquids were purchased. "Ice" flavor varieties of Puffbar, the most popular disposable E-cigarette brand, were compared with non-"Ice" varieties. E-liquids were characterized, and synthetic coolants quantified using GC/MS. Margin of exposure (MOE), a risk assessment parameter, was calculated to assess the risk associated with synthetic coolant exposure from E-cigarette use., Results: WS-3 was detected in 24/25 refill E-liquids analyzed. All Puffbar flavor varieties contained either WS-23 (13/14) or WS-3 (5/14), in both "Ice"- and non-"Ice" flavors. Modeling consumption of WS-3 from vaped E-liquids, resulted in MOEs below the safe margin of 100 for most daily use scenarios. MOEs for WS-23 were <100 for 10/13 Puffbar flavors in all use scenarios. Puffbar power specifications are identical to Juul devices., Conclusions: Synthetic cooling agents (WS-3/WS-23) were present in US-marketed E-cigarettes, at levels that may result in consumer exposures exceeding safety thresholds set by regulatory agencies. Synthetic coolants are not only found in mint- or menthol-flavored products but also in fruit- and candy-flavored products, including popular disposable E-cigarette products such as Puffbar., Implications: Synthetic cooling agents are widely used in "kool/cool"- and "ice"-flavored E-liquids and in E-liquids without these labels, both as a potential replacement for menthol or to add cooling "notes" to nonmenthol flavors. These agents may be used to bypass current and future regulatory limits on menthol content in tobacco products, and not just E-cigarettes. Because synthetic cooling agents are odorless, they may not fall under the category of "characterizing flavor", potentially circumventing regulatory measures based on this concept. Regulators need to consider the additional health risks associated with exposure to synthetic cooling agents., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Research on Nicotine and Tobacco. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2022
Full Text
View/download PDF

33. Improved Copper Circularity as a Result of Increased Material Efficiency in the U.S. Housing Stock.

Author

Wang T, Berrill P, Zimmerman JB, Rao ND, Min J, and Hertwich EG

Subjects
Climate Change, Copper, Environment, Household Articles, Housing
Abstract

Material efficiency (ME) can support rapid climate change mitigation and circular economy. Here, we comprehensively assess the circularity of ME strategies for copper use in the U.S. housing services (including residential buildings and major household appliances) by integrating use-phase material and energy demand. Although the ME strategies of more intensive floor space use and extended lifetime of appliances and buildings reduce the primary copper demand, employing these strategies increases the commonly neglected use-phase share of total copper requirements during the century from 23-28 to 22-42%. Use-phase copper requirements for home improvements have remained larger than the demand gap (copper demand minus scrap availability) for much of the century, limiting copper circularity in the U.S. housing services. Further, use-phase energy consumption can negate the benefits of ME strategies. For instance, the lifetime extension of lower-efficiency refrigerators increases the copper use and net environmental impact by increased electricity use despite reductions from less production. This suggests a need for more attention to the use phase when assessing circularity, especially for products that are material and energy intensive during use. To avoid burden shifting, policymakers should consider the entire life cycle of products supporting services when pursuing circular economy goals.

Published
2022
Full Text
View/download PDF

34. What to Expect When Expecting in Lab: A Review of Unique Risks and Resources for Pregnant Researchers in the Chemical Laboratory.

Author

Lane MKM, Garedew M, Deary EC, Coleman CN, Ahrens-Víquez MM, Erythropel HC, Zimmerman JB, and Anastas PT

Subjects
Female, Humans, Pregnancy, Research Personnel, Hazardous Substances adverse effects, Laboratories, Occupational Exposure adverse effects, Radiation, Ionizing
Abstract

Pregnancy presents a unique risk to chemical researchers due to their occupational exposures to chemical, equipment, and physical hazards in chemical research laboratories across science, engineering, and technology disciplines. Understanding "risk" as a function of hazard, exposure, and vulnerability, this review aims to critically examine the state of the science for the risks and associated recommendations (or lack thereof) for pregnant researchers in chemical laboratories (labs). Commonly encountered hazards for pregnant lab workers include chemical hazards (organic solvents, heavy metals, engineered nanomaterials, and endocrine disruptors), radiation hazards (ionizing radiation producing equipment and materials and nonionizing radiation producing equipment), and other hazards related to the lab environment (excessive noise, excessive heat, psychosocial stress, strenuous physical work, and/or abnormal working hours). Lab relevant doses and routes of exposure in the chemical lab environment along with literature and governmental recommendations or resources for exposure mitigation are critically assessed. The specific windows of vulnerability based on stage of pregnancy are described for each hazard, if available. Finally, policy gaps for further scientific research are detailed to enhance future guidance to protect pregnant lab workers.

Published
2022
Full Text
View/download PDF

37. Selective adsorption of arsenic over phosphate by transition metal cross-linked chitosan.

Author

Pincus LN, Petrović PV, Gonzalez IS, Stavitski E, Fishman ZS, Anastas PT, and Zimmerman JB

Abstract

The ability of transition metal chitosan complexes (TMCs) of varying valence and charge to selectively adsorb As(III) and As(V) over their strongest adsorptive competitor, phosphate is examined. Fe(III)-chitosan, Al(III)-chitosan, Ni(II)-chitosan, Cu(II)-chitosan, and Zn(II)-chitosan are synthesized, characterized via Attenuated Total Reflectance-Fourier Transform Infrared spectroscopy (ATR-FTIR) and X-ray Diffractometry (XRD), and their selective sorption capabilities towards As(III) and As(V) in the presence of phosphate are evaluated. It was found that the stability of the metal-chitosan complexes varied, with Al(III)- and Zn(II)-chitosan forming very unstable complexes resulting in precipitation of gibbsite, and Wulfingite and Zincite, respectively. Cu(II)-, Ni(II)-, and Fe(III)-chitosan formed a mixture of monodentate and bidentate complexes. The TMCs which formed the bidentate complex (Cu(II)-, Ni(II)-, and Fe(III)-) showed greater adsorption capability for As(V) in the presence of phosphate. Using the binary separation factor ∝ t / c , it can be shown that only Fe(III)-chitosan is selective for As(V) and As(III) over phosphate. Density Functional Theory (DFT) modeling and extended X-ray adsorption fine structure (EXAFS) determined that Fe(III)-chitosan and Ni(II)-chitosan adsorbed As(V) and As(III) via inner-sphere complexation, while Cu(II)-chitosan formed mainly outer-sphere complexes with As(V) and As(III). These differences in complexation likely result in the observed differences in selective adsorption capability towards As(V) and As(III) over phosphate. It is hypothesized that the greater affinity of Fe(III)- and Ni(II)-chitosan towards As(V) and As(III) compared to Cu(II)-chitosan is due to their forming less-stable, more reactive chitosan complexes as predicted by the Irving Williams Series.

Published
2021
Full Text
View/download PDF

38. Copper Recycling Flow Model for the United States Economy: Impact of Scrap Quality on Potential Energy Benefit.

Author

Wang T, Berrill P, Zimmerman JB, and Hertwich EG

Subjects
Alloys, United States, Copper, Recycling
Abstract

Is recycling a means for meeting the increasing copper demand in the face of declining ore grades? To date, research to address this question has generally focused on the quantity, not the quality of copper scrap. Here, the waste input-output impact assessment (WIO-IA) model integrates information on United States (US) economy-wide material flow, various recycling indicators, and the impact of material production from diverse sources to represent the quantity and quality of copper flows throughout the lifecycle. This approach enables assessment of recycling performance against environmental impact indicators. If all potentially recyclable copper scrap was recycled, energy consumption associated with copper production would decrease by 15% with alloy scrap as the largest contributor. Further energy benefits from increased recycling are limited by the lower quality of the scrap yet to be recycled. Improving the yield ratio of final products and the grade of diverse consumer product scrap could help increase copper circularity and decrease energy consumption. Policy makers should address the importance of a portfolio of material efficiency strategies like improved utilization of copper products and lifetime extension in addition to encouraging the demand for recycled copper.

Published
2021
Full Text
View/download PDF

39. Nano-structural effects on Hematite (α-Fe 2 O 3 ) nanoparticle radiofrequency heating.

Author

Powell CD, Lounsbury AW, Fishman ZS, Coonrod CL, Gallagher MJ, Villagran D, Zimmerman JB, Pfefferle LD, and Wong MS

Abstract

Nano-sized hematite (α-Fe 2 O 3 ) is not well suited for magnetic heating via an alternating magnetic field (AMF) because it is not superparamagnetic-at its best, it is weakly ferromagnetic. However, manipulating the magnetic properties of nano-sized hematite (i.e., magnetic saturation (Ms), magnetic remanence (Mr), and coercivity (Hc)) can make them useful for nanomedicine (i.e., magnetic hyperthermia) and nanoelectronics (i.e., data storage). Herein we study the effects of size, shape, and crystallinity on hematite nanoparticles to experimentally determine the most crucial variable leading to enhancing the radio frequency (RF) heating properties. We present the synthesis, characterization, and magnetic behavior to determine the structure-property relationship between hematite nano-magnetism and RF heating. Increasing particle shape anisotropy had the largest effect on the specific adsorption rate (SAR) producing SAR values more than 6 × greater than the nanospheres (i.e., 45.6 ± 3 W/g of α-Fe 2 O 3 nanorods vs. 6.89 W/g of α-Fe 2 O 3 nanospheres), indicating α-Fe 2 O 3 nanorods can be useful for magnetic hyperthermia.

Published
2021
Full Text
View/download PDF

41. Electrocatalysis for Chemical and Fuel Production: Investigating Climate Change Mitigation Potential and Economic Feasibility.

Author

Tu Q, Parvatker A, Garedew M, Harris C, Eckelman M, Zimmerman JB, Anastas PT, and Lam CH

Subjects
Catalysis, Feasibility Studies, Global Warming, Biofuels, Climate Change
Abstract

The manufacture of goods from oil, coal, or gas to everyday consumer products comprises in more or less all cases at least one catalytic step. Compared to conventional hydrothermal catalysis, electrocatalysis possesses the advantage of mild operational conditions and high selectivity, yet the potential energy savings and climate change mitigation have rarely been assessed. This study conducted a life cycle assessment (LCA) for the electrocatalytic oxidation of crude glycerol to produce lactic acid, one of the most common platform chemicals. The LCA results demonstrated a 31% reduction in global warming potential (GWP) compared to the benchmark (bio- and chemocatalytic) processes. Additionally, electrocatalysis yielded a synergetic potential to mitigate climate change depending on the scenario. For example, electrocatalysis combined with a low-carbon-intensity grid can reduce GWP by 57% if the process yields lactic acid and lignocellulosic biofuel as compared to a conventional fossil-based system with functionally equivalent products. This illustrates the potential of electrocatalysis as an important contributor to climate change mitigation across multiple industries. A technoeconomic analysis (TEA) for electrocatalytic lactic acid production indicated considerable challenges in economic feasibility due to the significant upfront capital cost. This challenge could be largely addressed by enabling dual redox processing to produce separate streams of renewable chemicals and biofuels simultaneously.

Published
2021
Full Text
View/download PDF

43. Moving from Protection to Prosperity: Evolving the U.S. Environmental Protection Agency for the next 50 years.

Author

Anastas PT and Zimmerman JB

Subjects
Humans, Risk Assessment, United States, United States Environmental Protection Agency, Public Health
Abstract

The people of the United States and the world owe the United States Environmental Protection Agency (U.S. EPA) a debt of gratitude for preserving, protecting, and defending human health and the environment for the past half century. As we celebrate the 50th anniversary of the founding of the U.S. EPA, there are two truths about the agency that are difficult to deny: (1) U.S. EPA and its people constitute a renowned agency that has greatly improved both environmental and public health in the United States, and has served as the leading model for nations around the world; and (2) the approaches, tools, structures, and legal frameworks that created the achievements of the U.S. EPA must evolve-and grow-to deal with the issues facing the country and the planet in the next 50 years. Building on the creativity, innovation, and brilliance of individuals and groups working at the U.S. EPA over the course of the last half century, we present 10 recommendations organized in three areas: organization, paradigms, and strategies and tools. Underlying these recommendations are the frameworks of sustainability and systems thinking and guiding these recommendations is the goal of evolving the Environmental Protection Agency to the Environmental Prosperity Agency.

Published
2021
Full Text
View/download PDF

44. Quantification of Flavorants and Nicotine in Waterpipe Tobacco and Mainstream Smoke and Comparison to E-cigarette Aerosol.

Author

Erythropel HC, Garcia Torres DS, Woodrow JG, de Winter TM, Falinski MM, Anastas PT, O'Malley SS, Krishnan-Sarin S, and Zimmerman JB

Subjects
Aerosols, Humans, United States epidemiology, Electronic Nicotine Delivery Systems statistics & numerical data, Flavoring Agents analysis, Nicotine analysis, Tobacco Products analysis, Tobacco Use epidemiology, Tobacco, Waterpipe analysis, Water Pipe Smoking epidemiology
Abstract

Introduction: Waterpipe use remains popular among youth with the availability of flavored shisha tobacco being one of the main drivers of waterpipe use. Although waterpipe mainstream toxicant emissions are well understood, less is known about the carryover of flavorants such as vanillin, benzaldehyde, and eugenol. In this study, flavored waterpipe tobacco was analyzed for flavorants and nicotine, and subsequent carryover to mainstream smoke., Methods: Flavorants vanillin, benzaldehyde, and eugenol, and nicotine were quantified in vanilla-, cherry-, and cinnamon-flavored shisha tobacco by gas chromatography/flame ionization detector and subsequently in waterpipe mainstream smoke generated by a smoking machine. The setup allowed for sampling before and after the water-filtration step., Results: Flavorant and nicotine content in smoke was reduced 3- to 10-fold and 1.4- to 3.1-fold, respectively, due to water filtration. Per-puff content of filtered waterpipe mainstream smoke ranged from 13 to 46 µg/puff for nicotine and from 6 to 55 µg/puff for flavorants., Conclusions: Although water filtration reduced flavor and nicotine content in waterpipe mainstream smoke, the detected flavorant concentrations were similar or higher to those previously reported in e-cigarette aerosol. Therefore, users could be drawn to waterpipes due to similar flavor appeal as popular e-cigarette products. Absolute nicotine content of waterpipe smoke was lower than in e-cigarette aerosol, but the differential use patterns of waterpipe (>100 puffs/session) and e-cigarette (mostly <10 puffs/session, multiple session throughout the day) probably result in higher flavorant and nicotine exposure during a waterpipe session. Strategies to reduce youth introduction and exposure to nicotine via waterpipe use may consider similar flavor restrictions as those for e-cigarettes., Implications: Although waterpipe mainstream smoke is well characterized for toxicants content, little is known about carryover of molecules relevant for appeal and addiction: flavorants and nicotine. This study shows that flavorant content of waterpipe mainstream smoke is comparable or higher than e-cigarette aerosol flavorant content. Regulatory action to address tobacco use behaviors targeting the availability of flavors should also include other tobacco products such as flavored shisha tobacco., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Research on Nicotine and Tobacco. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
Full Text
View/download PDF

45. Performance and Sustainability Tradeoffs of Oxidized Carbon Nanotubes as a Cathodic Material in Lithium-Oxygen Batteries.

Author

Falinski MM, Albalghiti EM, Backhaus A, and Zimmerman JB

Abstract

Climate change mitigation efforts will require a portfolio of solutions, including improvements to energy storage technologies in electric vehicles and renewable energy sources, such as the high-energy-density lithium-oxygen battery (LOB). However, if LOB technology will contribute to addressing climate change, improvements to LOB performance must not come at the cost of disproportionate increases in global warming potential (GWP) or cumulative energy demand (CED) over their lifecycle. Here, oxygen-functionalized multi-walled carbon nanotube (O-MWCNT) cathodes were produced and assessed for their initial discharge capacities and cyclability. Contrary to previous findings, the discharge capacity of O-MWCNT cathodes increased with the ratio of carbonyl/carboxyl moieties, outperforming pristine MWCNTs. However, increased oxygen concentrations decreased LOB cyclability, while high-temperature annealing increased both discharge capacity and cyclability. Improved performance resulting from MWCNT post-processing came at the cost of increased GWP and CED, which in some cases was disproportionately higher than the level of improved performance. Based on the findings presented here, there is a need to simultaneously advance research in improving LOB performance while minimizing or mitigating the environmental impacts of LOB production., (© 2020 Wiley-VCH GmbH.)

Published
2021
Full Text
View/download PDF

47. Toward Informed Design of Nanomaterials: A Mechanistic Analysis of Structure-Property-Function Relationships for Faceted Nanoscale Metal Oxides.

Author

Rudel HE, Lane MKM, Muhich CL, and Zimmerman JB

Abstract

Nanoscale metal oxides (NMOs) have found wide-scale applicability in a variety of environmental fields, particularly catalysis, gas sensing, and sorption. Facet engineering, or controlled exposure of a particular crystal plane, has been established as an advantageous approach to enabling enhanced functionality of NMOs. However, the underlying mechanisms that give rise to this improved performance are often not systematically examined, leading to an insufficient understanding of NMO facet reactivity. This critical review details the unique electronic and structural characteristics of commonly studied NMO facets and further correlates these characteristics to the principal mechanisms that govern performance in various catalytic, gas sensing, and contaminant removal applications. General trends of facet-dependent behavior are established for each of the NMO compositions, and selected case studies for extensions of facet-dependent behavior, such as mixed metals, mixed-metal oxides, and mixed facets, are discussed. Key conclusions about facet reactivity, confounding variables that tend to obfuscate them, and opportunities to deepen structure-property-function understanding are detailed to encourage rational, informed design of NMOs for the intended application.

Published
2020
Full Text
View/download PDF

48. Chemical Adducts of Reactive Flavor Aldehydes Formed in E-Cigarette Liquids Are Cytotoxic and Inhibit Mitochondrial Function in Respiratory Epithelial Cells.

Author

Jabba SV, Diaz AN, Erythropel HC, Zimmerman JB, and Jordt SE

Subjects
Aldehydes chemistry, Epithelial Cells drug effects, Flavoring Agents chemistry, Humans, Mitochondria drug effects, Respiratory System drug effects, Aerosols adverse effects, Aldehydes adverse effects, Electronic Nicotine Delivery Systems statistics & numerical data, Epithelial Cells pathology, Flavoring Agents adverse effects, Mitochondria pathology, Respiratory System pathology
Abstract

Introduction: Flavor aldehydes in e-cigarettes, including vanillin, ethyl vanillin (vanilla), and benzaldehyde (berry/fruit), rapidly undergo chemical reactions with the e-liquid solvents, propylene glycol, and vegetable glycerol (PG/VG), to form chemical adducts named flavor aldehyde PG/VG acetals that can efficiently transfer to e-cigarette aerosol. The objective of this study was to compare the cytotoxic and metabolic toxic effects of acetals and their parent aldehydes in respiratory epithelial cells., Aims and Methods: Cell metabolic assays were carried out in bronchial (BEAS-2B) and alveolar (A549) epithelial cells assessing the effects of benzaldehyde, vanillin, ethyl vanillin, and their corresponding PG acetals on key bioenergetic parameters of mitochondrial function. The potential cytotoxic effects of benzaldehyde and vanillin and their corresponding PG acetals were analyzed using the LIVE/DEAD cell assay in BEAS-2B cells and primary human nasal epithelial cells (HNEpC). Cytostatic effects of vanillin and vanillin PG acetal were compared using Click-iT EDU cell proliferation assay in BEAS-2B cells., Results: Compared with their parent aldehydes, PG acetals diminished key parameters of cellular energy metabolic functions, including basal respiration, adenosine triphosphate production, and spare respiratory capacity. Benzaldehyde PG acetal (1-10 mM) increased cell mortality in BEAS-2B and HNEpC, compared with benzaldehyde. Vanillin PG acetal was more cytotoxic than vanillin at the highest concentration tested while both diminished cellular proliferation in a concentration-dependent manner., Conclusions: Reaction products formed in e-liquids between flavor aldehydes and solvent chemicals have differential toxicological properties from their parent flavor aldehydes and may contribute to the health effects of e-cigarette aerosol in the respiratory system of e-cigarette users., Implications: With no inhalation toxicity studies available for acetals, data from this study will provide a basis for further toxicological studies using in vitro and in vivo models. This study suggests that manufacturers' disclosure of e-liquid ingredients at time of production may be insufficient to inform a comprehensive risk assessment of e-liquids and electronic nicotine delivery systems use, due to the chemical instability of e-liquids over time and the formation of new compounds., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Research on Nicotine and Tobacco.)

Published
2020
Full Text
View/download PDF

50. Superparamagnetic MOF@GO Ni and Co based hybrid nanocomposites as efficient water pollutant adsorbents.

Author

Ventura K, Arrieta RA, Marcos-Hernández M, Jabbari V, Powell CD, Turley R, Lounsbury AW, Zimmerman JB, Gardea-Torresdey J, Wong MS, and Villagrán D

Abstract

A series of highly efficient adsorbents were developed using Ni 3 (BTC) 2 and Co 3 (BTC) 2 metal-organic frameworks (MOFs) and Fe 3 O 4 magnetic nanoparticles (MNPs) to functionalize graphene oxide (GO). XRD results show high crystallinity of the prepared nanomaterials and the successful decoration of Ni 3 (BTC) 2 and Co 3 (BTC) 2 MOFs over the GO substrate (BTC = benzene-1,3,5-tricarboxylic acid). SEM and TEM imaging show the successful formation of nanoscale MOFs and Fe 3 O 4 MNPs over GO. IR spectroscopy supports the characterization and successful preparation of the Fe 3 O 4 /MOF@GO hybrid composite nanoadsorbents. The prepared composite nanoadsorbents were used to sorb Methylene Blue (MB) as a model for common organic pollutants in water and common ions (Na + , Ca 2+ , Mg 2+ , SO 4 2- , SiO 3 2- ) from a brackish water model. The adsorbed concentration at equilibrium of MB of the prepared composite nanoadsorbents increases by an average of 30.52 and 13.75 mg/g for the Co and Ni composite, respectively, when compared to the MOFs parent materials. The adsorbed amount of sulfate ions increases by 92.1 mg/g for the Co composite and 112.1 mg/g for the Ni composite, when compared to graphene oxide. This adsorption enhancement is attributed to suppressed aggregation through increased dispersive forces in the MOFs due to the presence of GO, formation of nanoscale MOFs over the GO platform, and the hindering of stacking of the graphene layers by the MOFs. Leaching tests show that the release of Co and Ni ions to water is reduced from 105.2 and 220 mg/L, respectively, in the parent MOF materials to 0.5 and 16.4 mg/L, respectively, in the composite nanoadsorbents. These findings show that the newly developed composite nanoadsorbents can sorb organic pollutants, and target sulfate and silicate anions, which makes them suitable candidates for water and wastewater treatments., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results