图文目录｜GEE Volume 9, Issue 11 正式出版

This review suggests the sustainable “Waste-to-MOFs” model for applications of adsorption, catalysis and energy storage.

Various strategies classified according to in-situ and ex-situ methods for synthesis of PET-derived MOFs are summarized.

It provides the concept of “waste treat waste” by achieving PET-derived MOFs for environmental pollution remediation.

Ultrasonic-enhanced Fenton-like oxidation mechanisms are evaluated and outlined.

Influencing factors of sono-activated persulfate oxidation are discussed.

The synergistic effects of sono-activated persulfate oxidation are revealed.

Synergistic effects in homo/heterogeneous and monatomic systems are reviewed.

Future research of sono-activated persulfate is prospected and summarized.

Controllable preparation of ultrafine CaCO₃ by industrial wastes.

High-purity CaCO₃ can be synthetized by indirect carbonation method.

Large-scale application of the developed technologies still faces many problems.

More studies on the carbonation mechanism and pilot scale should be performed.

A biomass-enhanced Janus sponge-like hydrogel with salt resistance and high strength was designed.

A high evaporation rate of 3.56 kg m⁻² h⁻¹ was achieved.

This Janus sponge-like hydrogel solar evaporator achieved excellent salt resistance (25 wt% NaCl).

The strong mechanical properties can significantly expand the practical application scenarios of evaporators.

Preparation of defective HKUST-1 with mixed ionic valence of CuI/CuII using mechanochemistry.

Modification strategies using ILs to enhance the hydrothermal stability of defective HKUST-1.

The structure of HIL₁@HKUST-1 remains intact after being exposed to water for 21 days.

HIL₁@HKUST-1 exhibited a maximum SO₂ adsorption capacity of 5.71 mmol·g^-1 at 25 °C and 0.1 bar.

HIL₁@HKUST-1 is suitable for both dry and wet environments.

KFeSO₄F@rGO shows elevated mean operating voltage via the formation of Fe–C bonds.

The energy barriers of K⁺ migration in rGO varies with different levels of defective sites.

The change in electronic structure of Fe-3d orbitals contribute to the high electronic conductivity.

PCP-modified MIL-101-Cr-NH₂ (PCP-MCN) is synthesized.

Proton conductivity (σ) of PCP-MCN reaches 2.61 × 10⁻² S/cm at 95 °C and 100% RH.

Marked increase in PCP-MCN σ at 55 °C is due to activation of PCP molecular motion.

Higher mechanical, thermal stabilities are observed for PCP-MCN/Nafion membrane.

PCP-MCN-3/Nafion membrane possesses a power density of 1.098 W/cm².

Zwitterionic copolymers display anti-polyelectrolyte behaviors.

Zwitterionic polymers show great promise for applications in high-salinity/ultra-high-salinity reservoirs.

A novel zwitterionic polymer (PAMNS) with salt-induced tackifying properties was successfully synthesized.

The properties and future direction of zwitterionic polymer (PAMNS) for practical applications are discussed.

Developed dual-function yeast: improved xylose conversion and product yield via cofactor regulation.

Introduced carbon fixation pathways to boost one-carbon assimilation efficiency, reaching 9.2%.

Transcriptomic analysis identified metabolic targets for advanced 2G and 3G feedstock conversion.

Based on SFT perovskite, SFTC/SFT asymmetric membranes were successfully fabricated.

A novel two-stage catalytic membrane reactor coupling CO₂ splitting and methane oxidation was constructed.

The CO₂ conversion reaches 35.4% with a hydrogen yield of 18.1 mL min⁻¹ cm⁻².

The two-stage CMR can extend to hollow fiber configuration.

The solar-assisted membrane reactor can operate stably for 50 h without any degradation.