Formation of arsenene p–n junctions via organic molecular adsorption

Gao, Nan; Zhu, Yu; Jiang, Qing

doi:10.1039/c7tc01972f

Cited by 22 publications

(36 citation statements)

References 56 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These reactions compete with the dehydration reaction, decreasing the overall AA yield. [70] Large numbers of catalysts were tested for the dehydration of LA (and its esters) into AA (and its esters), some of them showing very promising catalytic results. The main focus in this chapter will be on the latest catalytic advancements and developments concerning the dehydration of LA.…”

Section: Lactic Acid Routementioning

confidence: 99%

Bio‐Acrylates Production: Recent Catalytic Advances and Perspectives of the Use of Lactic Acid and Their Derivates

et al. 2018

View full text Add to dashboard Cite

The production of drop‐in chemicals from bio‐based renewable sources is gaining a lot of momentum due to proven negative impact of fossil‐based economy on environment and society. In this Review, various bio‐derived platform molecules are assessed as renewable alternatives to fossil resources for the catalytic production of acrylates. Acrylic acid and its esters are key building blocks of a large number of high‐value oligomers and polymers in the current industry. In spite of the encouraging successes reported on gram or lab‐scale, real implementation of bio‐based examples remain scarce mainly due to the current high cost and limited availability of the bio‐based substrates. As lactic acid and their derivatives are one of the most promising feedstocks for bio‐acrylate production, they are the main focus of this Review.

show abstract

Section: Lactic Acid Routementioning

confidence: 99%

Bio‐Acrylates Production: Recent Catalytic Advances and Perspectives of the Use of Lactic Acid and Their Derivates

et al. 2018

View full text Add to dashboard Cite

show abstract

“…It was conceived that 2D arsenene nanosheets with large magnetic moments could be used as components for spintronic devices. Electronic structures including energy bands and magnetism of 2D arsenenes have been extensively explored, covering a broad range of substitutional doping, intrinsic defects, as well as adsorption of atoms and molecules …”

Section: Surface Functionaliaztionmentioning

confidence: 99%

Theoretical studies on tunable electronic structures and potential applications of two‐dimensional arsenene‐based materials

Zhao

et al. 2018

WIREs Comput Mol Sci

View full text Add to dashboard Cite

Research efforts in the area of two‐dimensional (2D) arsenene‐based materials have been fueled up recently due to similarities in honeycomb atomic structures and differences in physical and chemical properties between arsenene and graphene. The pioneering prediction of monolayered arsenene in 2015 and successful synthesis of multilayered arsenene nanoribbons in 2016 have promoted intensive subsequent studies, especially in the theoretical aspect. Density functional theory computations not only revealed desirable fundamental band gap, structural stability, and high carrier mobility of various arsenene‐based materials but also suggested promising applications in future optoelectronic and thermoelectric devices, as well as in the quantum spin Hall devices via surface functionalization and modulation of interlayer interactions. With an aim to present a comprehensive review on the tunable electronic structures of 2D arsenene‐based materials, our focus is placed on the tailoring routes through surface functionalization to modify the electronic and optoelectronic properties of the arsenenes. An emphasis is also given to recent progress in designing topological states in arsenene monolayers. The challenges and outlooks are also laid out in aspects of experimental fabrication, device performance, and arsenene‐based chemical reactions. This article is categorized under: Structure and Mechanism > Computational Materials Science Electronic Structure Theory > Density Functional Theory

show abstract

“…PXRD data of the annealed samples corresponding to ten selected significant points of the Na 2 MoO 4 -Cs 2 MoO 4 -CoMoO 4 system allowed us to pre-determine the quasi binary joins and to reveal formation a new triple molybdate. Its composition Na 10 (Cs 3.77 Na 0.23 )Co 5 (MoO 4 ) 12 was established with single crystal XRD analysis (see below). The diffractogram of the sample with the nominal composition Na 10 Cs 4 Co 5 (MoO 4 ) 12 prepared from the simple molybdates of sodium, cesium and cobalt at 460°C for 150 h agrees well with the PXRD pattern calculated with the single crystal XRD data ( Figure 1).…”

Section: Phase Formation Study and Subsolidus Phase Relationsmentioning

confidence: 99%

“…Its composition Na 10 (Cs 3.77 Na 0.23 )Co 5 (MoO 4 ) 12 was established with single crystal XRD analysis (see below). The diffractogram of the sample with the nominal composition Na 10 Cs 4 Co 5 (MoO 4 ) 12 prepared from the simple molybdates of sodium, cesium and cobalt at 460°C for 150 h agrees well with the PXRD pattern calculated with the single crystal XRD data ( Figure 1). The unit cell parameters of Na 10 Cs 4 Co 5 (MoO 4 ) 12 refined on PXRD data are a = 13.664(2), b = 12.512(2), c = 27.990(3) Å.…”

Section: Phase Formation Study and Subsolidus Phase Relationsmentioning

confidence: 99%

“…[2a,2c] As a new encouraging result, the alluaudite-type Na 2.67 Mn 1.67 (MoO 4 ) 3 was found to be a possible cathode material for sodium-ion batteries. [12] Recently, we reported a new series of triple molybdates Na 25 Cs 8 R 5 (MoO 4 ) 24 (R = Sc, In, Fe) [13] having alluaudite-related pseudo orthorhombic structures with the unit cell parameters a ≈ 13.9-14.0, b ≈ 12.6, c ≈ 28.4-28.7 Å, α ≈ ≈ γ ≈ 90°, Z = 2 and the space groups P2 1 /c (R = Sc, In) and P1 (R = Fe). However, the atomic arrangements in Na 25 Cs 8 R 5 (MoO 4 ) 24 (R = Sc, In, Fe) are very close to the orthorhombic sp.…”

mentioning

confidence: 99%

See 1 more Smart Citation

Synthesis, Structure, and Conductivity of Alluaudite‐Related Phases in the Na₂MoO₄–Cs₂MoO₄–CoMoO₄ System

et al. 2018

View full text Add to dashboard Cite

Phase formation study of the Na2MoO4–Cs2MoO4–CoMoO4 system resulted in new cesium‐containing alluaudite‐related phases. The solid solution Na4–2x‐yCsyCo1+x(MoO4)3 (0 ≤ x, y ≤ 0.30), based on the alluaudite‐type Na4–2xCo1+x(MoO4)3, and triple molybdate Na10(Cs4‐xNax)Co5(MoO4)12 (0 ≤ x ≤ 0.30) were found, and their structures were solved. In the structure of Na3.21Cs0.37Co1.21(MoO4)3 (a = 13.0917(8) Å, b = 13.5443(8) Å, c = 7.1217(4) Å, space group C2/c, β = 112.331(2), Z = 4), the cesium ions partially substitute the Na+ in the channels running along the c‐axis. The structure of Na10(Cs3.77Na0.23)Co5(MoO4)12 (a = 13.6572(3) Å, b = 11.5063(3) Å, c = 27.9898(5) Å, space group Pbca, Z = 4) was proved to be the aristotype for the pseudo orthorhombic Na25Cs8R5(MoO4)24 (R = Fe, Sc, In). The compounds contain alluaudite‐like layers of MoO4 tetrahedra and pairs of edge‐shared (Co, Na)O6 or (R, Na)O6 and NaO6 octahedra, which are connected by bridging MoO4 tetrahedra to form 3D frameworks differing from the alluaudite type. The frameworks contain channels along the c‐axis filled by Cs+ and Na+ ions. Bond valence sum (BVS) maps show that the alluaudite‐related molybdates can have a 2D sodium‐ion conductivity at elevated temperatures in contrast to the alluaudite‐type cathode material Na2+2xFe2‐x(SO4)3 with a 1D conductivity. The measured ionic conductivity of Na4–2xCo1+x(MoO4)3, Na4–2x‐yCsyCo1+x(MoO4)3, and Na10Cs4Co5(MoO4)12 reaches 10–3–10–2 S cm–1 at 500 °C.

show abstract

Formation of arsenene p–n junctions via organic molecular adsorption

Abstract: With selective molecular doping, arsenene p–n junctions may be achieved.

Cited by 22 publications

References 56 publications

Bio‐Acrylates Production: Recent Catalytic Advances and Perspectives of the Use of Lactic Acid and Their Derivates

Bio‐Acrylates Production: Recent Catalytic Advances and Perspectives of the Use of Lactic Acid and Their Derivates

Theoretical studies on tunable electronic structures and potential applications of two‐dimensional arsenene‐based materials

Synthesis, Structure, and Conductivity of Alluaudite‐Related Phases in the Na₂MoO₄–Cs₂MoO₄–CoMoO₄ System

Contact Info

Product

Resources

About

Formation of arsenene p–n junctions via organic molecular adsorption

Abstract: With selective molecular doping, arsenene p–n junctions may be achieved.

Cited by 22 publications

References 56 publications

Bio‐Acrylates Production: Recent Catalytic Advances and Perspectives of the Use of Lactic Acid and Their Derivates

Bio‐Acrylates Production: Recent Catalytic Advances and Perspectives of the Use of Lactic Acid and Their Derivates

Theoretical studies on tunable electronic structures and potential applications of two‐dimensional arsenene‐based materials

Synthesis, Structure, and Conductivity of Alluaudite‐Related Phases in the Na2MoO4–Cs2MoO4–CoMoO4 System

Contact Info

Product

Resources

About

Synthesis, Structure, and Conductivity of Alluaudite‐Related Phases in the Na₂MoO₄–Cs₂MoO₄–CoMoO₄ System