Efficient capture of endocrine-disrupting compounds by a high-performance nanofiltration membrane for wastewater treatment

“…(b) Self-cleaning membranes that feature a low fouling propensity and removal capability of surface contaminants allow extending the lifespan and ensuring the stability of membrane performance, holding a significant promise in various application fields. 217 Given the diversity and complexity of practical liquid/gas systems, it is crucial to enhance the self-cleaning effect of TFN membranes, as this will greatly contribute to reducing maintenance costs, improving pollution resistance, and fostering sustainable development. (c) MD simulation has played an increasing role in elucidating the molecule/ion transport behavior across the PA membranes, while machine learning can help screen the crucial characteristics of TFN membranes for molecular separation.…”

“…In addition to size screening and the Donnan effect, designing special recognition sites in the pores to adsorb micropollutants is also an effective approach to improve the removal efficiency of organic micropollutants. Liu et al 217 constructed TPB-DMTP-COF TFN membranes assisted by a vacuum-assisted filtration method. COFs with functional groups have a high affinity to EDCs based on host–guest interactions.…”

Metal/covalent–organic framework based thin film nanocomposite membranes for advanced separations

“…(b) Self-cleaning membranes that feature a low fouling propensity and removal capability of surface contaminants allow extending the lifespan and ensuring the stability of membrane performance, holding a significant promise in various application fields. 217 Given the diversity and complexity of practical liquid/gas systems, it is crucial to enhance the self-cleaning effect of TFN membranes, as this will greatly contribute to reducing maintenance costs, improving pollution resistance, and fostering sustainable development. (c) MD simulation has played an increasing role in elucidating the molecule/ion transport behavior across the PA membranes, while machine learning can help screen the crucial characteristics of TFN membranes for molecular separation.…”

“…In addition to size screening and the Donnan effect, designing special recognition sites in the pores to adsorb micropollutants is also an effective approach to improve the removal efficiency of organic micropollutants. Liu et al 217 constructed TPB-DMTP-COF TFN membranes assisted by a vacuum-assisted filtration method. COFs with functional groups have a high affinity to EDCs based on host–guest interactions.…”

Metal/covalent–organic framework based thin film nanocomposite membranes for advanced separations

“…AFM can effectively characterize the morphology and interaction forces of antibiotics on the membrane surface, thereby enhancing the efficiency of membranes in intercepting them. For instance, Liu et al [60] used AFM to investigate the adsorption of EDCs on nanofiltration membrane surfaces, subsequently enhancing the EDC removal rate by preparing modified nanofiltration membranes. Wu et al [61] attached sulfamethoxazole (SMX), a representative antibiotic, to an AFM tip to measure the SMX adhesion force distribution.…”

Employing Atomic Force Microscopy (AFM) for Microscale Investigation of Interfaces and Interactions in Membrane Fouling Processes: New Perspectives and Prospects

Bioprospecting photosynthetic microorganisms for the removal of endocrine disruptor compounds