Construction of 3D Ordered Honeycomb Films with Controllable Pores as Efficient Catalytic Supports

Yang, Xiaoyan; Jin, Haibao; Yao, Yuan; Lin, Shaoliang

doi:10.1002/adfm.202202298

Cited by 8 publications

(3 citation statements)

References 20 publications

(17 reference statements)

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“…Microstructure characteristics are an important aspect of microreactors that considerably affect their catalytic efficiencies. Currently, the microstructures of different substrate materials can be classified as ordered − and disordered. − The reaction rate enhancement by ordered materials has been observed in various fields, including catalysis − and adsorption . For example, Chen et al constructed a highly ordered and interconnected three-dimensional ordered microchannel structure that regulated the mass transfer and surface reactions of the microreactor and improved the electrocatalytic reaction rate.…”

Section: Introductionmentioning

confidence: 99%

Continuous Fluid Catalytic Reactor Constructed Based on In Situ Growth of MOF Immobilized Enzyme on Ordered Silk Fabric

Wang,

Chen,

Zhou

et al. 2024

ACS Sustainable Chem. Eng.

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Enzyme catalysis applications are limited because of their poor stability under extreme conditions. Using metal−organic frameworks (MOFs) as enzyme immobilization carriers efficiently solves this problem. However, MOFs easily agglomerate, are difficult to recover as a crystalline powder, and can only be used under continuous stirring, resulting in low reaction efficiencies. The use of immobilized enzymes for continuous fluid catalysis to improve catalytic efficiency remains challenging. At the same time, the spatial division of most immobilized enzyme porous materials is disordered, which leads to poor mass transfer efficiency and consequently low reaction rates. In this context, we want to construct a new type of reactor that solves the problem of enzyme stability by encapsulating enzymes in MOFs and then using low-cost and easily available silk fabric materials as immobilized carriers to load MOF immobilized enzymes. The ordered structure of silk fabric enhances substrate mass transfer, thereby improving the catalytic efficiency of the reactor. By comparing the mass transfer of a continuous fluid catalytic reactor with ordered silk fiber immobilized enzyme (OSCR) with that of a continuous fluid catalytic reactor with disordered silk fiber immobilized enzyme (DSCR) using crystal violet adsorption and catalytic process simulations, we demonstrated that the reaction efficiency in ordered spaces can be improved through mass transfer within each partition space. Finally, the reactor was used in the biotransformation of polydatin and demonstrated a high conversion of 98%, which was much higher than that of DSCR. This study revealed the enormous potential of ordered structure enzyme reactors in continuous fluid catalysis.

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Section: Introductionmentioning

confidence: 99%

Continuous Fluid Catalytic Reactor Constructed Based on In Situ Growth of MOF Immobilized Enzyme on Ordered Silk Fabric

Wang,

Chen,

Zhou

et al. 2024

ACS Sustainable Chem. Eng.

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“…[28,29] It is sensitive to UV-visible (UV-vis) light and undergoes photo-controlled reversible trans-cis isomerization, this induces significant changes in hydrophilicity, dipole moment, and structural size. [30][31][32] Photosensitive Azo and its derivatives are often used as the guest in supramolecular host-guest specific recognition systems, forming an ordered supramolecular assembly with cyclodextrin (𝛼, 𝛽-CD) and other macrocyclic hosts through non-covalent binding. These systems exhibit the spontaneous and dynamic control of host-guest dissociation and assembly under optical driving.…”

Section: Introductionmentioning

confidence: 99%

Visual Sensor with Host–Guest Specific Recognition and Light–Electrical Co‐Controlled Switch

Liu,

Du,

Guo

et al. 2024

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Perception of UV radiation has important applications in medical health, industrial production, electronic communication, etc. In numerous application scenarios, there is an increasing demand for the intuitive and low‐cost detection of UV radiation through colorimetric visual behavior, as well as the efficient and multi‐functional utilization of UV radiation. However, photodetectors based on photoconductive modes or photosensitive colorimetric materials are not conducive to portable or multi‐scene applications owing to their complex and expensive photosensitive components, potential photobleaching, and single‐stimulus response behavior. Here, a multifunctional visual sensor based on the “host–guest photo‐controlled permutation” strategy and the “lock and key” model is developed. The host–guest specific molecular recognition and electrochromic sensing platform is integrated at the micro‐molecular scale, enabling multi‐functional and multi‐scene applications in the convenient and fast perception of UV radiation, military camouflage, and information erasure at the macro level of human–computer interaction through light–electrical co‐controlled visual switching characteristics. This light–electrical co‐controlled visual sensor based on an optoelectronic multi‐mode sensing system is expected to provide new ideas and paradigms for healthcare, microelectronics manufacturing, and wearable electronic devices owing to its advantages of signal visualization, low energy consumption, low cost, and versatility.

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“…The breath figure method, as a technique for the preparation of porous materials and surface patterns, 1 has received great attention for its simple and economic operation, which has been proved effective in fields including tissue engineering, [2][3][4] catalysis, [5][6][7] separation, [8][9][10][11][12][13] and optics. 14 When a solution is exposed to a humid environment, the breath figure process involves a few steps, including the evaporation of solvents, condensation of water vapor, growth and arrangement of water droplets, solidification of films, and the final complete evaporation of water droplets.…”

Section: Introductionmentioning

confidence: 99%

Polystyrenes with both hydrophilic and hydrophobic moieties: synthesis and self-assembly behaviors

Zhou

Gao

et al. 2023

Soft Matter

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Construction of 3D Ordered Honeycomb Films with Controllable Pores as Efficient Catalytic Supports

Cited by 8 publications

References 20 publications

Continuous Fluid Catalytic Reactor Constructed Based on In Situ Growth of MOF Immobilized Enzyme on Ordered Silk Fabric

Continuous Fluid Catalytic Reactor Constructed Based on In Situ Growth of MOF Immobilized Enzyme on Ordered Silk Fabric

Visual Sensor with Host–Guest Specific Recognition and Light–Electrical Co‐Controlled Switch

Polystyrenes with both hydrophilic and hydrophobic moieties: synthesis and self-assembly behaviors

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