High-density horizontal InAs nanowire transistors are fabricated on the interdigital silicon-on-insulator substrate.Hexagonal InAs nanowires are uniformly grown between face-to-face(111) vertical sidewalls of neighb...High-density horizontal InAs nanowire transistors are fabricated on the interdigital silicon-on-insulator substrate.Hexagonal InAs nanowires are uniformly grown between face-to-face(111) vertical sidewalls of neighboring Si fingers by metal–organic chemical vapor deposition. The density of InAs nanowires is high up to 32 per group of silicon fingers,namely an average of 4 nanowires per micrometer. The electrical characteristics with a higher on/off current ratio of 2×10~5are obtained at room temperature. The silicon-based horizontal InAs nanowire transistors are very promising for future high-performance circuits.展开更多
Two Zn(II) coordination polymers, namely [Zn2(bpy)(aobtc)(H2O)2]·2H2O(1) and [Zn2(bpy)(aobtc)(H2O)]·4H2O(2)(bpy = 4,4'-bipyridine, H4 aobtc = 3,3',5,5'-azoxybenzenetetracarboxylic acid...Two Zn(II) coordination polymers, namely [Zn2(bpy)(aobtc)(H2O)2]·2H2O(1) and [Zn2(bpy)(aobtc)(H2O)]·4H2O(2)(bpy = 4,4'-bipyridine, H4 aobtc = 3,3',5,5'-azoxybenzenetetracarboxylic acid) have been hydrothermally synthesized through tuning the p H value of the reaction system(1, C(26)H(22)N(4)O(13)Zn2, Mr = 729.21; 2, C(26)H(24)N4O(14)Zn2, Mr = 747.23), and their structures have been determined by single-crystal X-ray diffraction analyses. Compound 2 has been further characterized by infrared spectra(IR), elemental analyses, thermal analyses and powder X-ray diffraction(PXRD) analyses. Additionally, the photoluminescence of 2 is also discussed. The structure demonstrates that the crystal of 2 belongs to the triclinic system, space group P1 with a = 8.41494(18), b = 9.59838(19), c = 17.6477(3) ?, α = 91.5098(16), β = 98.1439(17), γ = 90.4323(17)°, V = 1410.44(5) ^3, Z = 2, ρcalc = 1.759 g/cm^3, μ = 2.819 mm-1, F(000) = 760.0, R = 0.0311 and w R = 0.0839(I 〉 2σ(I)). Compound 1 shows a two-dimensional monolayer while compound 2 displays a novel 2D double-layered network constructed from monolayer motifs, which is similar to the single layer in 1. Further, each bilayer motif in 2 is interdigitated by two others in a parallel fashion to yield an unusual 2D → 3D interdigitated framework.展开更多
Flexible pressure sensors have attracted great attention due to their potential in the wearable devices market and in particular in human-machine interactive interfaces.Pressure sensors with high sensitivity,wide meas...Flexible pressure sensors have attracted great attention due to their potential in the wearable devices market and in particular in human-machine interactive interfaces.Pressure sensors with high sensitivity,wide measurement range,and low-cost are now highly desired for such practical applications.In the present investigation,an ultrasensitive pressure sensor with wide measurement range has been successfully fabricated.Carbon nanotubes(CNTs)(uniformly sprayed on the surface of paper)comprise the sensitivity material,while lithographed interdigital electrodes comprise the substrate.Due to the synergistic effects of CNT’s high specific surface area,paper’s porous structure,interdigital electrodes’efficient contact with CNT,our pressure sensor realizes a wide measurement range from 0 to 140 kPa and exhibits excellent stability through 15,000 cycles of testing.For the paper-based CNT film/interdigitated structure(PCI)pressure sensor,the connection area between the sensitive material and interdigital electrodes dominates in the lowpressure region,while internal change within the sensitive materials plays the leading role in the high-pressure region.Additionally,the PCI pressure sensor not only displays a high sensitivity of 2.72 kPa–1(up to 35 kPa)but also can detect low pressures,such as that exerted by a resting mung bean(about 8 Pa).When attached to the surface of a human body,the pressure sensor can monitor physiological signals,such as wrist movement,pulse beats,or movement of throat muscles.Furthermore,the pressure sensor array can identify the spatial pressure distribution,with promising applications in humanmachine interactive interfaces.展开更多
基金supported by the National Key Research and Development Program of China(Grant No.2016YFA02005003)the National Natural Science Foundation of China(Grant Nos.61376096 and 61327813)
文摘High-density horizontal InAs nanowire transistors are fabricated on the interdigital silicon-on-insulator substrate.Hexagonal InAs nanowires are uniformly grown between face-to-face(111) vertical sidewalls of neighboring Si fingers by metal–organic chemical vapor deposition. The density of InAs nanowires is high up to 32 per group of silicon fingers,namely an average of 4 nanowires per micrometer. The electrical characteristics with a higher on/off current ratio of 2×10~5are obtained at room temperature. The silicon-based horizontal InAs nanowire transistors are very promising for future high-performance circuits.
基金Financially supported by the National Natural Science Foundation of China(No.21571149)the Program for Chongqing Excellent Talents in University,the Fundamental Research Funds for the Central Universities(XDJK2013A027,XDJK2016C101)the Open Foundation of Key Laboratory of Synthetic and Natural Functional Molecule Chemistry of Ministry of Education(338080045)
文摘Two Zn(II) coordination polymers, namely [Zn2(bpy)(aobtc)(H2O)2]·2H2O(1) and [Zn2(bpy)(aobtc)(H2O)]·4H2O(2)(bpy = 4,4'-bipyridine, H4 aobtc = 3,3',5,5'-azoxybenzenetetracarboxylic acid) have been hydrothermally synthesized through tuning the p H value of the reaction system(1, C(26)H(22)N(4)O(13)Zn2, Mr = 729.21; 2, C(26)H(24)N4O(14)Zn2, Mr = 747.23), and their structures have been determined by single-crystal X-ray diffraction analyses. Compound 2 has been further characterized by infrared spectra(IR), elemental analyses, thermal analyses and powder X-ray diffraction(PXRD) analyses. Additionally, the photoluminescence of 2 is also discussed. The structure demonstrates that the crystal of 2 belongs to the triclinic system, space group P1 with a = 8.41494(18), b = 9.59838(19), c = 17.6477(3) ?, α = 91.5098(16), β = 98.1439(17), γ = 90.4323(17)°, V = 1410.44(5) ^3, Z = 2, ρcalc = 1.759 g/cm^3, μ = 2.819 mm-1, F(000) = 760.0, R = 0.0311 and w R = 0.0839(I 〉 2σ(I)). Compound 1 shows a two-dimensional monolayer while compound 2 displays a novel 2D double-layered network constructed from monolayer motifs, which is similar to the single layer in 1. Further, each bilayer motif in 2 is interdigitated by two others in a parallel fashion to yield an unusual 2D → 3D interdigitated framework.
基金the funding support from the National Natural Science Foundation of China (51605449, 51675493 and 51705476)Shanxi “1331 Project” Key Subject Construction (1331KSC)
文摘Flexible pressure sensors have attracted great attention due to their potential in the wearable devices market and in particular in human-machine interactive interfaces.Pressure sensors with high sensitivity,wide measurement range,and low-cost are now highly desired for such practical applications.In the present investigation,an ultrasensitive pressure sensor with wide measurement range has been successfully fabricated.Carbon nanotubes(CNTs)(uniformly sprayed on the surface of paper)comprise the sensitivity material,while lithographed interdigital electrodes comprise the substrate.Due to the synergistic effects of CNT’s high specific surface area,paper’s porous structure,interdigital electrodes’efficient contact with CNT,our pressure sensor realizes a wide measurement range from 0 to 140 kPa and exhibits excellent stability through 15,000 cycles of testing.For the paper-based CNT film/interdigitated structure(PCI)pressure sensor,the connection area between the sensitive material and interdigital electrodes dominates in the lowpressure region,while internal change within the sensitive materials plays the leading role in the high-pressure region.Additionally,the PCI pressure sensor not only displays a high sensitivity of 2.72 kPa–1(up to 35 kPa)but also can detect low pressures,such as that exerted by a resting mung bean(about 8 Pa).When attached to the surface of a human body,the pressure sensor can monitor physiological signals,such as wrist movement,pulse beats,or movement of throat muscles.Furthermore,the pressure sensor array can identify the spatial pressure distribution,with promising applications in humanmachine interactive interfaces.
