Erratum: QIU, L.-H., ZHAO, J.-X., WU, Z.-D., LV, Z.-Y. &amp;amp; PANG, Y. (2011) Steinernema pui sp. n. (Rhabditida, Steinernematidae), a new entomopathogenic nematode from Yunnan, China. Zootaxa, 2767, 1–13.

Qiu, Li-Hong; Zhao, Jingna; Zeng, Wu; Lv, Zejia; Pang, Yin Mei May

doi:10.11646/zootaxa.2787.1.5

Cited by 39 publications

(60 citation statements)

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“…In addition, due to their large specific surface area and tunable pore structure, [16][17][18][19][20][21] the volumetric expansion during the discharge process can be accommodated effectively and the soluble polysulfide will be trapped within the nanoscaffolds in some degree. [12] Nevertheless, traditional carbonaceous materials prepared by hydrothermal, generally, have an open porous structure and the pore size reaches up to micrometer scale, [22][23][24][25] which will result in the porous surface of cathodes and unsuccessful block of the dissolution and shuttle effect of polysulfides.…”

Section: Introductionmentioning

confidence: 99%

Hierarchical High‐Porosity Graphene Oxide‐Porous Carbon/Sulfur Composite with Sodium Chloride as Temporary Space Holders for High‐Performance Lithium‐Sulfur Batteries

Chen

Wang

et al. 2019

ChemElectroChem

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The ultrahigh theoretical specific capacity and energy density of lithium‐sulfur batteries have attracted extensive research, but the main issues including the insulating nature of sulfur, large volumetric expansion during discharging, and shuttle effect of polysulfides still need to be solved. Herein, a hierarchical high‐porosity graphene oxide‐porous carbon/sulfur (GO‐PC/S) composite cathode is designed and fabricated. In this work, sodium chloride was used as temporary space holders to create a hierarchical porous structure for accelerating the transmission of Li+, accommodating the volumetric expansion, and enlarging the specific surface area (342.623 m2 g−1) up to eight times. Owing to the abundant oxygen‐containing functional groups of GO, sulfur and polysulfides can be effectively immobilized and the conductivity is enhanced by porous carbon. The Li−S battery exhibits outstanding kinetic performance and rate capability (618.3 mAh g−1 at 2 C) as well as excellent cycling performance over 300 cycles.

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Section: Introductionmentioning

confidence: 99%

Hierarchical High‐Porosity Graphene Oxide‐Porous Carbon/Sulfur Composite with Sodium Chloride as Temporary Space Holders for High‐Performance Lithium‐Sulfur Batteries

Chen

Wang

et al. 2019

ChemElectroChem

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“…As we know, the freeze‐drying technique is commonly used in many industrial areas like soil engineering, food industry, and biology. It is a well‐established approach to create aligned porous structures, three‐dimensional nanomaterials, and organic nanoparticles. Concerning the experimental procedure, the acetone was first replaced by deionized water (as shown in Figure a), and then the hydrous GF was picked up onto a SiO 2 /Si substrate followed by being quickly frozen for 2 hours and then dried in a homemade freeze drying installation.…”

mentioning

confidence: 99%

Low‐voltage Driven Graphene Foam Thermoacoustic Speaker

Fei

Zhou

Guo

2014

Small

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A low‐voltage driven thermoacoustic speaker is fabricated based on three‐dimensional graphene foams synthesized by a nickel‐template assisted chemical vapor deposition method. The corresponding thermoacoustic performances are found to be related to its microstructure. Graphene foams exhibit low heat‐leakage to substrates and feasible tunability in structures and thermoacoustic performances, having great promise for applications in flexible or ultrasonic acoustic devices.

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“…Consequently, the assembly structure of the building blocks could be regulated by controlling the properties of building blocks (variety, size, concentration) and the growth route of ice crystals (size, growth speed, and direction). Based on the above‐mentioned technique advantages, various porous materials with different cellular structures have been successfully created by freeze‐drying method, such as graphene cellular monoliths, carbon nanotubes foams, and nanofiber‐assembled cellular aerogels …”

Section: Strategies To Synthesize Nfhgsmentioning

confidence: 99%

Nanofiber‐Based Hydrogels: Controllable Synthesis and Multifunctional Applications

Duan

Yan

et al. 2018

Macromol. Rapid Commun.

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Nanofiber-based hydrogels (NFHGs) prepared by the combination of traditional hydrogels and novel nanofibers have demonstrated great potential in various application fields, owing to their integrated advantages of superhydrophilicity, high water-holding capacity, good biocompatibility, enhanced mechanical strength, and excellent structural tenability. In this review, a comprehensive overview of the structure design and synthetic strategy of NFHGs derived from electrospinning technique, weaving, freeze-drying, 3D printing, and molecular self-assembling method is provided. The widely researched multifunctional applications, primarily involving tissue engineering, drug delivery, sensing, intelligent actuator, and oil/water separation are also presented. Furthermore, some unsolved scientific issues and possible directions for future development of this field are also intensively discussed.

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Erratum: QIU, L.-H., ZHAO, J.-X., WU, Z.-D., LV, Z.-Y. & PANG, Y. (2011) Steinernema pui sp. n. (Rhabditida, Steinernematidae), a new entomopathogenic nematode from Yunnan, China. Zootaxa, 2767, 1–13.

Abstract: (Erratum)

Cited by 39 publications

References 0 publications

Hierarchical High‐Porosity Graphene Oxide‐Porous Carbon/Sulfur Composite with Sodium Chloride as Temporary Space Holders for High‐Performance Lithium‐Sulfur Batteries

Hierarchical High‐Porosity Graphene Oxide‐Porous Carbon/Sulfur Composite with Sodium Chloride as Temporary Space Holders for High‐Performance Lithium‐Sulfur Batteries

Low‐voltage Driven Graphene Foam Thermoacoustic Speaker

Nanofiber‐Based Hydrogels: Controllable Synthesis and Multifunctional Applications

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