Sentence examples for materials for field from inspiring English sources

Pixel structures of such neutron detectors necessary for imaging applications and incorporation of internal moderator materials for field measurements of fast neutron flux intensities are discussed as well.

One-dimensional nanomaterials of tungsten have excellent performance of chemical, physical, electrical, and mechanical properties [1], so metallic tungsten one-dimensional nanomaterials have attracted considerable attention as promising materials for field emitters [2 4], displays [5], sensors [6, 7], etc.

Because of their porous structure [2], high surface area, high electrical conductivity, thermal stability [3], and excellent chemical stability, CSs have been widely used as anode material for lithium-ion battery [4], cathode materials for field emission [5], catalyst support materials [6], and adsorbents [7].

Despite the amount of data available on investigating the process of aqueous contaminant removal by metallic iron (Fe0), there is still a significant amount of uncertainty surrounding the design of Fe0 beds for laboratory testing to determine the suitability of Fe0 materials for field applications.

Semiconductor behavior of 2D materials (e.g., MoS2) makes them promising materials for field-effect transistors (FETs).

Monolayers of semiconducting transition metal dichalcogenides MoS2 or WSe2 have been proposed as promising channel materials for field-effect transistors.

Therefore, t-MWCNTs could be utilized as an alternative material for field emitters.

Carbon nanotube (CNT) has been recognized as an ideal candidate material for field emission applications due to its unique structure and remarkable mechanical, electrical, and chemical stability.

Graphene with atomic sharp edges have been widely studied to demonstrate that it is an ideal material for field electron emission (FEE).

For the FAD DLC thin film, which is a very attractive cathode material for field electron emission, an intermediate layer of metal Ti has been added between the DLC film and silicon substrate.

The intention of this study was to investigate whether the rhamnolipid mixture could be produced in commercial quantities for enhanced oil recovery (EOR) projects in bioreactor and prove of its potential use as an effective material for field application.