4.8 Review

Advances in two-dimensional materials for energy-efficient and molecular precise membranes for biohydrogen production

BIORESOURCE TECHNOLOGY (2022)

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Article Chemistry, Multidisciplinary

Large-Area 2D Covalent Organic Framework Membranes with Tunable Single-Digit Nanopores for Predictable Mass Transport

Rahul Shevate et al.

Summary: This study successfully synthesized large-area and ultra-thin 2D COFs using a simple interfacial polymerization technique. The COFs demonstrated tunable properties, resulting in high solvent fluxes and sharp molecular weight cutoffs in COF membranes. The research also found that the pore passage resistance and membrane critical interfacial tension influence mass transport.

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Article Chemistry, Physical

Waste-to-hydrogen technologies: A critical review of techno-economic and socio-environmental sustainability

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Summary: This review comprehensively evaluates waste-to-hydrogen technologies from technological, economic, environmental, and societal viewpoints. The state-of-the-art of five technologies and emerging trends were summarized, and various areas for improvement and future research prospects were identified. The study highlights the importance of techno-economic and environmental studies, as well as the need for scaling-up and reducing production costs.

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Article Engineering, Chemical

Fabrication of 2D bimetallic metal-organic framework ultrathin membranes by vapor phase transformation of hydroxy double salts

Changchang Ma et al.

Summary: In this study, a highly oriented bimetallic MOF nanosheet membrane was successfully fabricated through a vapor phase transformation strategy, and the formation mechanism was discussed. The membrane exhibited excellent gas separation performance.

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Article Engineering, Chemical

Fast fabrication of freestanding MXene-ZIF-8 dual-layered membranes for H2/CO2 separation

Xilu Hong et al.

Summary: A new freestanding MXene-ZIF-8 dual-layered membrane was reported for efficient hydrogen separation, synthesized rapidly using electrophoretic deposition and fast current-driven synthesis techniques. The membrane exhibited significantly improved gas separation performance within a short period of time.

JOURNAL OF MEMBRANE SCIENCE (2022)

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Review Agricultural Engineering

Advanced strategies for enhancing dark fermentative biohydrogen production from biowaste towards sustainable environment

Dongle Cheng et al.

Summary: This paper critically reviews the technologies employed in producing biohydrogen from biowastes through fermentation, discussing the challenges and future perspectives. Various advanced strategies for enhancing biohydrogen yields are explored.

BIORESOURCE TECHNOLOGY (2022)

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Article Engineering, Chemical

Recent advances in membrane-enabled water desalination by 2D frameworks: Graphene and beyond

Ali Raza et al.

Summary: This review summarizes the next-generation hybrid graphene-based membrane materials for water cleansing and discusses their advantages, limitations, and future development directions.

DESALINATION (2022)

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Effect of light perturbation on the photo-fermentative hydrogen production of biomass from giant reed

Xuenan Shui et al.

Summary: This study proposed a light perturbation strategy to enhance the growth and hydrogen production of photosynthetic bacteria. The experiment showed that light perturbation at 6000 Lux and 24 hours significantly increased the hydrogen yield and production rate, as well as the dry weight of bacteria. Matrix scatter analysis revealed a close relationship between the hydrogen production rate and cumulative hydrogen production after perturbation.

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Superhydrophilic photocatalytic g-C3N4/SiO2 composite membranes for effective separation of oil-in-water emulsion and bacteria removal

Wenyuan Ye et al.

Summary: A superhydrophilic/underwater superoleophobic nanocomposite membrane with photocatalytic properties was developed by vacuum-assisted filtration. This membrane exhibited excellent separation performance and biofouling resistance, making it promising for practical oily wastewater treatment.

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The Future of Membrane Separation Processes: A Prospective Analysis

Eric Favre

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FRONTIERS IN CHEMICAL ENGINEERING (2022)

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Review Biotechnology & Applied Microbiology

Microbiomes of biohydrogen production from dark fermentation of industrial wastes: current trends, advanced tools and future outlook

Eka Latiffah Nadia Dzulkarnain et al.

Summary: Biohydrogen production through dark fermentation is an attractive solution for mitigating the effects of climate change. Understanding the microbial communities involved in the fermentation process and their interactions is crucial for process optimization. This review discusses the different systems and microbiomes used in dark fermentation, with a focus on palm oil mill effluent. The challenges and molecular biology tools used to study the microbial ecology associated with biohydrogen production are also summarized. The future outlook highlights the potential of microbiome-based technologies in maximizing biohydrogen production output.

BIORESOURCES AND BIOPROCESSING (2022)

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Article Chemistry, Physical

2D materials-based membranes for hydrogen purification: Current status and future prospects

Euntae Yang et al.

Summary: Hydrogen is the most viable energy carrier to replace fossil fuels and achieve zero emissions, and membrane separation is an important method to obtain high-purity hydrogen gas. However, the performance of commercial polymeric membranes has limited the development of membrane separation. Two-dimensional nanomaterials have the potential to improve membrane performance.

INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2021)

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Review Agricultural Engineering

A review on self-sustainable microbial electrolysis cells for electro-biohydrogen production via coupling with carbon-neutral renewable energy technologies

Euntae Yang et al.

Summary: MEC technology is a promising bioelectrochemical hydrogen production method, but sustainability is hindered by the need for external power input. Combining traditional MEC with advanced carbon-neutral technologies can lead to self-sustainable MEC systems. Overcoming thermodynamic barriers and discussing new approaches for achieving self-sustaining MECs will advance the practical application of this technology.

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A. Ajanovic et al.

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ENERGY (2021)

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MOF-in-COF molecular sieving membrane for selective hydrogen separation

Hongwei Fan et al.

Summary: COFs are promising for separation membranes, but MOF-in-COF membranes show significant enhancement in hydrogen selectivity over other gases.

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2D boron nitride nanosheets in PIM-1 membranes for CO2/CH4 separation

Ahmed W. Ameen et al.

Summary: By preparing mixed matrix membranes of 2D boron nitride nanosheets and PIM-1, the physical aging of PIM-1 can be significantly reduced, paving the way for the industrial application of PIM-based membranes.

JOURNAL OF MEMBRANE SCIENCE (2021)

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Review Chemistry, Physical

Multi-dimensional applications of graphitic carbon nitride nanomaterials - A review

Ekemena O. Oseghe et al.

Summary: This article critically reviews various applications and prospects of graphitic carbon nitride (g-C3N4) nanomaterials in fields such as biomedicine, sensors, energy conversion and storage, hydrogen production, and photocatalytic degradation. It also discusses the theoretical aspects, attributes, current trends/challenges, and future considerations of g-C3N4 nanostructures in energy and environmental applications. It is believed that this review will provide readers and researchers with comprehensive knowledge and inspire the synthesis of novel g-C3N4-based materials for diverse fields.

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Green hydrogen enrichment with carbon membrane processes: Techno-economic feasibility and sensitivity analysis

Xuezhong He et al.

Summary: Biohydrogen production through dark fermentation from biomass has the potential to drive a green hydrogen economy, but the purification process often requires advanced separation technologies due to the high CO2 content. Carbon molecular sieving membranes are being explored as an alternative solution for biohydrogen enrichment. The study on techno-economic feasibility of H2-selective carbon membrane systems shows that high vacuum operation reduces specific costs, while feed gas compression enhances separation performance, with a minimum specific cost of $0.026/Nm3 at 6 bar for 90% hydrogen recovery. A two-stage carbon membrane system is technically feasible for >99.5% biohydrogen purity at $0.06/Nm3, lower than pressure swing adsorption, making it scalable and flexible without significant changes in production cost. Improving hydrogen permeance through submicrometer asymmetric carbon membranes is crucial for enhancing competitiveness in biohydrogen purification.

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The Current Status of MOF and COF Applications

Ralph Freund et al.

Summary: The amalgamation of different disciplines at the heart of reticular chemistry has broadened the boundaries of chemistry. Reticular design enables precise prediction of crystalline framework structures, tunability of chemical composition, and fine-tuning of material properties in metal-organic frameworks and covalent organic frameworks. Leveraging the unique properties of reticular materials has led to significant advances in both fundamental and applied research.

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Ultrafast Poly(sodium methacrylate)-Grafted UiO-66-Incorporated Nanocomposite Membranes Enable Excellent Active Pharmaceutical Ingredient Concentration

Jun Hui Huang et al.

Summary: This study focuses on developing highly permeable thin-film nanocomposite (TFN) membranes for purifying active pharmaceutical ingredients (APIs) from organic solvents. By optimizing the membrane structure and operation conditions, the TFN membranes show excellent rejection performance towards target molecules, with a rejection rate of about 99.9% towards octreotide acetate. The TFN membranes demonstrate a high permeance of 88.8 L m(-2) h(-1) bar(-1) and stable performance in continuous operation, making them a promising option for large-scale API purification.

INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2021)

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Preparation, chemical features, structure and applications of membrane materials based on graphene oxide

Dmitrii Petukhov et al.

Summary: Emerging chemical techniques in the preparation of modern 2D materials have expanded the practical applications of materials. Research on graphene oxide has focused on optimizing mass production and flexible adjustment of membrane materials based on its unique structural and chemical features. The physical chemical correlations between preparation history, structural peculiarities of graphene oxide, and functional properties of graphene oxide-based membranes have been reviewed and analyzed.

MENDELEEV COMMUNICATIONS (2021)

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Article Chemistry, Physical

Fluorine doped porous boron nitride for efficient CO2 capture and separation: A DFT study

Yan Liu et al.

Summary: This study explored the strong and selective CO2 adsorption ability of fluorine-doped porous BN through density functional theory investigation. The results showed that the introduction of fluorine atoms significantly reduced the work function and exhibited high adsorption selectivity. Additionally, the stability of the fluorine-doped porous BN for CO2 capture and separation was confirmed, indicating promising application potential in the field.

APPLIED SURFACE SCIENCE (2021)

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Article Engineering, Environmental

Graphene oxide-modified g-C3N4 nanosheet membranes for efficient hydrogen purification

Yisa Zhou et al.

Summary: In this study, a continuous g-C3N4-GO membrane with excellent H2 permeation performance and good stability was successfully prepared by utilizing graphene oxide nanosheets to cover and repair defects in two-dimensional graphitic carbon nitride (g-C3N4) nanosheets.

CHEMICAL ENGINEERING JOURNAL (2021)

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Fabrication of Ultrathin Membranes Using 2D-MOF Nanosheets for Tunable Gas Separation

Yuxiao Li et al.

Summary: A facile GO-assisted restacking method was developed to fabricate defect-free membranes with monolayer Zr-BTB nanosheets, allowing for tunable separation performances by changing the number of nanolayers. The method also exceeded the 2008 Robeson upper bound for gas separation. The use of a heating filtration method further enhanced H-2/CO2 selectivity without compromising H-2 permeance.

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Melamine-Doped Covalent Organic Framework Membranes for Enhanced Hydrogen Purification

Wei Zheng et al.

Summary: Melamine-doped COF membranes exhibit enhanced hydrogen purification performance with a separation factor of 12.7 and hydrogen permeance of 727 GPU. The introduction of melamine monomer alters both pore structure and pore surface, resulting in improved separation properties. Additionally, the TpPaMe COF membrane demonstrates excellent running stability and outperforms the Robeson 2008 upper bound in H-2/CO2 separation performance.

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Graphitic Carbon Nitride-Graphene Oxide Hybrid Membranes for Hydrogen Purification

Mingmin Jia et al.

Summary: Graphitic carbon nitride-graphene oxide composite membranes were prepared by filtrating g-C3N4 and a small amount of GO on a porous polymer support. Incorporation of GO nanosheets in g-C3N4 membranes prevented interedge defects or voids, leading to effective separation of H-2 molecules from larger gas molecules. At a GO weight loading of 5%, the composite membrane exhibited enhanced H-2/CO2 separation performance with a H-2 permeance of 3.66 X 10(-6) mol m(-2) s(-1) Pa-1 (H-2/CO2 ideal selectivity: 179.6).

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Heating-driven assembly of covalent organic framework nanosheets for gas separation

Yingjie Zhao et al.

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JOURNAL OF MEMBRANE SCIENCE (2021)

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High-efficiency CO2 separation using hybrid LDH-polymer membranes

Xiaozhi Xu et al.

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NATURE COMMUNICATIONS (2021)

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Extraordinary thermal behavior of graphene oxide in air for electrode applications

Joon Young Cho et al.

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Zhen Zhang et al.

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P. Sampath et al.

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Long Cheng et al.

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Ultrathin Two-Dimensional Membranes Assembled by Ionic Covalent Organic Nanosheets with Reduced Apertures for Gas Separation

Yunpan Ying et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2020)

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Recent Advances in Covalent Organic Frameworks for Molecule-Based Two-Dimensional Materials

Soyoung Kim et al.

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High-Flux Vertically Aligned 2D Covalent Organic Framework Membrane with Enhanced Hydrogen Separation

Hongwei Fan et al.

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Seyed Mohamad Moosavi et al.

NATURE COMMUNICATIONS (2020)

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In-situ interfacial assembly of ultra-H2-permeable metal-organic framework membranes for H2/CO2 separation

Kun Yang et al.

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Critical challenges in biohydrogen production processes from the organic feedstocks

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