Unraveling the impact of the Pd nanoparticle@BiVO<sub>4</sub>/S-CN heterostructure on the photo-physical &amp; opto-electronic properties for enhanced catalytic activity in water splitting and one-pot three-step tandem reaction

Samanta, Subhajyoti; Satpati, Biswarup; Srivastava, Rajendra

doi:10.1039/c8na00372f

Cited by 16 publications

(12 citation statements)

References 78 publications

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“…47 To estimate the band edge locations of Zn@MA-POP, a Mott−Schottky analysis was performed (Figure 4d), which showed a positive slope of 1/C 2 vs applied potential, characteristic of an n-type semiconductor. 48 The flat band potential of Zn@MA-POP calculated from the x intercept is −1.05 V. 49 For n-type semiconductors, the conduction band edge potential is defined as a drop in the flat band potential by 0.10 V, and hence the calculated CB/LUMO potential is −0.95 V. Further, the VB/HOMO position was found to be 1.55 V using the equation E VB − E CB = E g . 50 The HOMO and LUMO distributions from a DFT analysis of the Zn@MA-POP unit (Figure 4e) along with the band alignment show that the HOMO is mainly localized on the TPH moiety, whereas the LUMO is delocalized across the Zn-core unit, which basically acts as an electron acceptor.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO₂ Insertion

Sarkar

Paul

Dao

et al. 2022

ACS Appl. Mater. Interfaces

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Anthropogenic carbon dioxide (CO 2 ) emission is soaring day by day due to fossil fuel combustion to fulfill the daily energy requirements of our society. The CO 2 concentration should be stabilized to evade the deadly consequences of it, as climate change is one of the major consequences of greenhouse gas emission. Chemical fixation of CO 2 to other value-added chemicals requires high energy due to its stability at the highest oxidation state, creating a tremendous challenge to the scientific community to fix CO 2 and prevent global warming caused by it. In this work, we have introduced a novel monomer-assembly-directed strategy to design va isible-light-responsive conjugated Zn-metalated porous organic polymer (Zn@MA-POP) with a dynamic covalent acyl hydrazone linkage, via a one-pot condensation between the selfassembled monomer 1,3,5-benzenetricarbohydrazide (TPH) and a Zn complex (Zn@COM). We have successfully explored as-synthesized Zn@MA-POP as a potential photocatalyst in visible-light-driven CO 2 photofixation with styrene epoxide (SE) to styrene carbonate (SC). Nearly 90% desired product (SC) selectivity has been achieved with our Zn@MA-POP, which is significantly better than that for the conventional Zn@TiO 2 (∼29%) and Zn@gC 3 N 4 (∼26%) photocatalytic systems. The excellent light-harvesting nature with longer lifetime minimizes the radiative recombination rate of photoexcited electrons as a result of extended π-conjugation in Zn@MA-POP and increased CO 2 uptake, eventually boosting the photocatalytic activity. Local structural results from a first-shell EXAFS analysis reveals the existence of a Zn(N 2 O 4 ) core structure in Zn@MA-POP, which plays a pivotal role in activating the epoxide ring as well as capturing the CO 2 molecules. An in-depth study of the POP−CO 2 interaction via a density functional theory (DFT) analysis reveals two feasible interactions

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Section: ■ Results and Discussionmentioning

confidence: 99%

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO₂ Insertion

Sarkar

Paul

Dao

et al. 2022

ACS Appl. Mater. Interfaces

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“…A reduction in the flat band potential by −0.10 V is considered as the conduction band edge potential for n-type semiconductors. 64 The calculated CB potentials from Mott−Schottky analysis using flat band potentials for g-CN, Zr-Thia(50)/g-CN, Zr-Thia(75)/g-CN, and Zr-Thia(100)/g-CN are calculated to be −0.88 V, −0.89 V, −1.0 V, and −0.92 V, respectively. The bandgap obtained from UV−visible spectroscopy, VBXPS derived valence band potential, and conduction band potential evaluated from M-S analysis gives the plausible band edge structure against the standard potential of Ag/AgCl.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…The flat band potentials for g-CN, Zr-Thia(50)/g-CN, Zr-Thia(75)/g-CN, and Zr-Thia(100)/g-CN calculated from x -intercept are −0.98 V, −0.99 V, −1.10 V, and −1.02 V, respectively. A reduction in the flat band potential by −0.10 V is considered as the conduction band edge potential for n-type semiconductors . The calculated CB potentials from Mott–Schottky analysis using flat band potentials for g-CN, Zr-Thia(50)/g-CN, Zr-Thia(75)/g-CN, and Zr-Thia(100)/g-CN are calculated to be −0.88 V, −0.89 V, −1.0 V, and −0.92 V, respectively.…”

Section: Resultsmentioning

confidence: 99%

Graphitic Carbon Nitride Modified with Zr-Thiamine Complex for Efficient Photocatalytic CO₂ Insertion to Epoxide: Comparison with Traditional Thermal Catalysis

Kumar

Samanta

Srivastava

2021

ACS Appl. Nano Mater.

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CO 2 conversion to valuable chemicals and fuels at ambient temperature and atmospheric pressure using a sustainable energy source is an attractive but challenging task. Herein, Zrthiamine is pyrolyzed with urea under N 2 atmosphere to prepare Zr-thiamine modified carbon nitride (Zr-Thia/g-CN) catalyst. The catalyst exhibits optimum Lewis acidity and basicity to produce excellent cyclic carbonate yields by the insertion reaction of CO 2 into epoxide on a large scale under neat conditions in the absence of any cocatalyst under traditional thermal catalysis in 6 h. The catalyst exhibits similar cyclic carbonate yield under simulated light (250 W Hg lamp, λ > 360 nm) in 24 h and, most importantly, under sunlight in 12 h in the presence of a low amount of cocatalyst (2.5 mol % with respect to epoxide) under ambient temperature, 1 bar pressure, and neat conditions. The catalyst is efficiently recycled up to 5 cycles in traditional thermal catalysis and photocatalytic conditions. The structure−activity relationship is established, and the reaction mechanism is proposed with the help of CO 2 adsorption, CO 2 temperature-programmed desorption techniques, acidity−basicity measurements, optoelectronic properties, control reactions, and catalytic activity data. The development of a single catalyst for catalyzing the same reaction under traditional thermal catalytic and sustainable photocatalytic conditions will attract researchers of different disciplines.

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“…Several catalysts have been reported for the simultaneous photocatalytic oxidation of alcohols by photogenerated holes and reduction of nitrobenzene to aniline by photogenerated electrons. [30][31][32][33][34][35] TiO 2 , C 3 N 4 , BiVO 4 , and CdS based composite catalysts have been employed for this purpose. [30][31][32][33][34][35] Most of these catalysts were fabricated by a multi-step synthesis protocol.…”

Section: Introductionmentioning

confidence: 99%

“…[30][31][32][33][34][35] TiO 2 , C 3 N 4 , BiVO 4 , and CdS based composite catalysts have been employed for this purpose. [30][31][32][33][34][35] Most of these catalysts were fabricated by a multi-step synthesis protocol. The direct one-pot synthesis of secondary amines by the reaction of nitroarenes and alcohols is somewhat tricky, and therefore only a handful of reports are available.…”

Section: Introductionmentioning

confidence: 99%

Selective Production of Secondary Amine by the Photocatalytic Cascade Reaction Between Nitrobenzene and Benzyl Alcohol over Nanostructured Bi₂MoO₆ and Pd Nanoparticles Decorated with Bi₂MoO₆

Ghalta

Kar

Srivastava

2021

Chemistry An Asian Journal

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The synthesis of secondary amine by the photoalkylation of nitrobenzene with benzyl alcohol using a simple light source and sunlight is a challenging task. Herein, a onepot cascade protocol is employed to synthesize secondary amine by the reaction between nitrobenzene and benzyl alcohol. The one-pot cascade protocol involves four reactions: (a) photocatalytic reduction of nitrobenzene to aniline, (b) photocatalytic oxidation of benzyl alcohol to benzaldehyde, (c) reaction between aniline and benzaldehyde to form imine, and (d) photocatalytic reduction of imine to a secondary amine. The cascade protocol to synthesize secondary amine is accomplished using Bi 2 MoO 6 and Pd nanoparticles decorated Bi 2 MoO 6 catalysts. The surface characteristics, oxidation states, and elemental compositions of the materials are characterized by several physicochemical characterization techniques. Optoelectronic and photoelectrochemical measurements are carried out to determine the bandgap, band edge potentials, photocurrents, charge carrier's separation, etc. An excellent yield of secondary amine is achieved with simple household white LED bulbs. The catalyst also exhibits similar or even better activity in sunlight. The structureactivity relationship is established using catalytic activity data, control reactions, physicochemical, optoelectronic characteristics, and scavenging studies. Bi 2 MoO 6 and Pd nanoparticles decorated Bi 2 MoO 6 exhibit excellent photostability and recyclability. The simple catalyst design with a sustainable and economical light source for the synthesis of useful secondary amine from the nitrobenzene and benzyl alcohol would attract the researchers to develop similar catalytic protocols for other industrially important chemicals.

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Unraveling the impact of the Pd nanoparticle@BiVO₄/S-CN heterostructure on the photo-physical & opto-electronic properties for enhanced catalytic activity in water splitting and one-pot three-step tandem reaction

Abstract: Influence of Pd NPs in the BiVO4/S-CN photocatalyst is demonstrated for the efficient water splitting and imine synthesis via tandem reaction.

Cited by 16 publications

References 78 publications

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO₂ Insertion

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO₂ Insertion

Graphitic Carbon Nitride Modified with Zr-Thiamine Complex for Efficient Photocatalytic CO₂ Insertion to Epoxide: Comparison with Traditional Thermal Catalysis

Selective Production of Secondary Amine by the Photocatalytic Cascade Reaction Between Nitrobenzene and Benzyl Alcohol over Nanostructured Bi₂MoO₆ and Pd Nanoparticles Decorated with Bi₂MoO₆

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Unraveling the impact of the Pd nanoparticle@BiVO4/S-CN heterostructure on the photo-physical & opto-electronic properties for enhanced catalytic activity in water splitting and one-pot three-step tandem reaction

Abstract: Influence of Pd NPs in the BiVO4/S-CN photocatalyst is demonstrated for the efficient water splitting and imine synthesis via tandem reaction.

Cited by 16 publications

References 78 publications

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO2 Insertion

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO2 Insertion

Graphitic Carbon Nitride Modified with Zr-Thiamine Complex for Efficient Photocatalytic CO2 Insertion to Epoxide: Comparison with Traditional Thermal Catalysis

Selective Production of Secondary Amine by the Photocatalytic Cascade Reaction Between Nitrobenzene and Benzyl Alcohol over Nanostructured Bi2MoO6 and Pd Nanoparticles Decorated with Bi2MoO6

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Unraveling the impact of the Pd nanoparticle@BiVO₄/S-CN heterostructure on the photo-physical & opto-electronic properties for enhanced catalytic activity in water splitting and one-pot three-step tandem reaction

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO₂ Insertion

Unlocking Molecular Secrets in a Monomer-Assembly-Promoted Zn-Metalated Catalytic Porous Organic Polymer for Light-Responsive CO₂ Insertion

Graphitic Carbon Nitride Modified with Zr-Thiamine Complex for Efficient Photocatalytic CO₂ Insertion to Epoxide: Comparison with Traditional Thermal Catalysis

Selective Production of Secondary Amine by the Photocatalytic Cascade Reaction Between Nitrobenzene and Benzyl Alcohol over Nanostructured Bi₂MoO₆ and Pd Nanoparticles Decorated with Bi₂MoO₆