Customized Cellulose Fiber Paper Enabled by an <i>In Situ</i> Growth of Ultralong Hydroxyapatite Nanowires

Chen, Feifei; Dai, Zihao; Feng, Yamin; Xiong, Zhi‐Chao; Zhu, Ying‐Jie; Yu, Yan

doi:10.1021/acsnano.0c10903

Cited by 57 publications

(28 citation statements)

References 75 publications

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“…5 Furthermore, HA nanowires (HAnWs) were paid more attention because of their better flexibility and specific surface area. Some HAnW-based functional materials, such as the salt-resistant Janus evaporator, 6 scaffold for the repairing cartilage defect, 7 cellulose fiber paper, 8 and magnetic paper for oil−water separation, 9 were reported. Its functions and applications should be further expanded.…”

Section: Introductionmentioning

confidence: 99%

Hydroxyapatite Coated with Co-Based Metal Organic Framework Nanoparticles as Heterojunctions for Catalytic Degradation of Organics

Ren

et al. 2021

ACS Appl. Nano Mater.

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Hydroxyapatite (HA), as a kind of biocompatible inorganic material, is rich in hydroxyl groups on the surface and can easily undergo ion exchange reactions with metal ions. In this study, using HA nanowires (HAnW) as eco-friendly carriers and promoters, a HAnW-based heterojunction (HAnW@CoMOF), in which HA was coated by the cobalt-based metal−organic framework (Co-MOF), was synthesized by a simple in situ growth method and ion exchange method. Then, using HAnW@CoMOF to activate peroxymonosulfate, some typical organic pollutants including antibiotics and dyes, such as tetracycline (TC), malachite green, crystal violet, methylene blue, and rhodamine B, were excellently degraded. The removal rate of TC was 86% within 0.5 min and 97% within 15 min. It could also be reused for 10 times with the removal rate of TC being 95%. The catalytic mechanism was investigated with detecting reactive substances, including 1 O 2 ,• O 2 − • OH, and SO 4 −• . We considered the formation of Co−OH + in the heterojunction of HAnW@CoMOF, as there are a lot of −OH in HAnW, which fixed Co 2+ of Co-MOF. In summary, it provided an eco-friendly HA-based catalyst for effective and quick degradation of organic pollutants.

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Section: Introductionmentioning

confidence: 99%

Hydroxyapatite Coated with Co-Based Metal Organic Framework Nanoparticles as Heterojunctions for Catalytic Degradation of Organics

Ren

et al. 2021

ACS Appl. Nano Mater.

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“…Recently, Chen and co-workers 275 reported a new type of hydroxyapatite nanowire–cellulose fiber (HAPNW–CF) paper via the in situ growth of ultralong HAP nanowires (HAPNWs) on CF paper (Fig. 13i).…”

Section: Composite Papermentioning

confidence: 99%

The gorgeous transformation of paper: from cellulose paper to inorganic paper to 2D paper materials with multifunctional properties

Dai

Guo

2022

J. Mater. Chem. A

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“…Nowadays, newly emerging microfluidic paper-based analytical devices (μPAD), with merits of multifunctionality, satisfactory bendability, and admirable biocompatibility, have achieved enormous progress in the fields of manufacturing environment, clinical diagnostics, and so forth. − Among them, paper-based photoelectrochemical (PEC) bioassay, combining plenty of excellent performances of PEC bioanalysis and cellulose paper, has attracted extensive attention because of its portability, high sensitivity, and low background. − In the quest for effectively improving PEC performance, ideal photoactive materials, as one of the most complicated and crucial factors, have been actively pursued among the field. , Tungsten trioxide (WO 3 ) is seen as a promising n-type semiconductor owing to its attractive features including high carrier mobility, wide-range spectral absorption, and eminent chemical stability, − which exhibits great potential to be an excellent photoactive material. However, the application of unmodified WO 3 is restricted due to the weakness of its wide band gap of 2.6–2.8 eV and the high recombination rate of electron–hole pairs, which hinders the efficient conversion from photo to electricity. , Therefore, selecting a sensitizer with prominent sensitization efficiency for WO 3 is critical to accelerate the photo-electric conversion.…”

Section: Introductionmentioning

confidence: 99%

A Target-Driven Self-Feedback Paper-Based Photoelectrochemical Sensing Platform for Ultrasensitive Detection of Ochratoxin A with an In₂S₃/WO₃ Heterojunction Structure

Tan

Liang

et al. 2022

Anal. Chem.

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Currently, developing versatile, easy-to-operate, and effective signal amplification strategies hold great promise in photoelectrochemical (PEC) biosensing. Herein, an ultrasensitive polyvinylpyrrolidone-treated In 2 S 3 /WO 3 (In 2 S 3 -P/WO 3 )-functionalized paper-based PEC sensor was established for sensing ochratoxin A (OTA) based on a target-driven self-feedback (TDSF) mechanism enabled by a dual cycling tactic of PEC chemical−chemical (PECCC) redox and exonuclease III (Exo III)-assisted complementary DNA. The In 2 S 3 -P/WO 3 heterojunction structure with 3D open-structure and regulable topology was initially in situ grown on Au nanoparticlefunctionalized cellulose paper, which was served as a universal signal transducer to directly record photocurrent signals without complicated electrode modification, endowing the paper chip with admirable anti-interference ability and unexceptionable photoelectric conversion efficiency. With the assistance of Exo III-assisted cycling process, a trace amount of OTA could trigger substantial signal reporter ascorbic acid (AA) generated by the enzymatic catalysis of alkaline phosphatase, which could effectively provoke the PECCC redox cycling among the tris(2-carboxyethyl)phosphine acid, AA, and ferrocenecarboxylic at the In 2 S 3 -P/WO 3 photoelectrode, initiating TDSF signal amplification. Based on the TDSF process induced by the Exo III-assisted recycling and PECCC redox cycling strategy, the developed paper-based PEC biosensor realized ultrasensitive determination of OTA with persuasive selectivity, high stability, and excellent reproducibility. It is believed that the proposed paper-based PEC sensing platform exhibited enormous potential for the detection of other targets in bioanalysis and clinical diagnosis.

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Customized Cellulose Fiber Paper Enabled by an In Situ Growth of Ultralong Hydroxyapatite Nanowires

Cited by 57 publications

References 75 publications

Hydroxyapatite Coated with Co-Based Metal Organic Framework Nanoparticles as Heterojunctions for Catalytic Degradation of Organics

Hydroxyapatite Coated with Co-Based Metal Organic Framework Nanoparticles as Heterojunctions for Catalytic Degradation of Organics

The gorgeous transformation of paper: from cellulose paper to inorganic paper to 2D paper materials with multifunctional properties

A Target-Driven Self-Feedback Paper-Based Photoelectrochemical Sensing Platform for Ultrasensitive Detection of Ochratoxin A with an In₂S₃/WO₃ Heterojunction Structure

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Customized Cellulose Fiber Paper Enabled by an In Situ Growth of Ultralong Hydroxyapatite Nanowires

Cited by 57 publications

References 75 publications

Hydroxyapatite Coated with Co-Based Metal Organic Framework Nanoparticles as Heterojunctions for Catalytic Degradation of Organics

Hydroxyapatite Coated with Co-Based Metal Organic Framework Nanoparticles as Heterojunctions for Catalytic Degradation of Organics

The gorgeous transformation of paper: from cellulose paper to inorganic paper to 2D paper materials with multifunctional properties

A Target-Driven Self-Feedback Paper-Based Photoelectrochemical Sensing Platform for Ultrasensitive Detection of Ochratoxin A with an In2S3/WO3 Heterojunction Structure

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A Target-Driven Self-Feedback Paper-Based Photoelectrochemical Sensing Platform for Ultrasensitive Detection of Ochratoxin A with an In₂S₃/WO₃ Heterojunction Structure