Electron beam irradiation application for improving the multiscale structure and enhancing physicochemical and digestive properties of acetylated naked barley

“…The evergreen world of nanostructured surfaces, which ascended on the shoulders of ultrashort laser−matter irradiation, is of high interest for various scientific, biomedical, and industrial applications. 1 Numerous techniques are available for creating nanostructured surfaces, encompassing sputtering, chemical 2 and plasma etching, 3 chemical vapor deposition, 4,5 self-assembly, nanoimprint, 6 optical, electron beam, and physical lithography, 7,8 and more. 9 However, ultrashort laser irradiation has emerged as a robust and efficient alternative for producing diverse nanotextured surfaces, notably laser-induced periodic surface structures (LIPSS).…”

“…The evergreen world of nanostructured surfaces, which ascended on the shoulders of ultrashort laser–matter irradiation, is of high interest for various scientific, biomedical, and industrial applications . Numerous techniques are available for creating nanostructured surfaces, encompassing sputtering, chemical and plasma etching, chemical vapor deposition, , self-assembly, nanoimprint, optical, electron beam, and physical lithography, , and more . However, ultrashort laser irradiation has emerged as a robust and efficient alternative for producing diverse nanotextured surfaces, notably laser-induced periodic surface structures (LIPSS). − LIPSS represents a captivating realm of research, presenting promising applications spanning hydrogen evolution, photochemical water splitting, , solar-thermal conversion, data storage, surface chemistry, photodetectors, and biomedical applications. − This burgeoning field of nanopatterning serves as the cornerstone of fields such as the semiconductor industry, microelectronics, and photocatalysis .…”

Nanotubular Arrayed LIPSS Achieved with Femtosecond Bessel Beam on Silver Surface for SERS-Based Multiple Explosive Sensing

“…The evergreen world of nanostructured surfaces, which ascended on the shoulders of ultrashort laser−matter irradiation, is of high interest for various scientific, biomedical, and industrial applications. 1 Numerous techniques are available for creating nanostructured surfaces, encompassing sputtering, chemical 2 and plasma etching, 3 chemical vapor deposition, 4,5 self-assembly, nanoimprint, 6 optical, electron beam, and physical lithography, 7,8 and more. 9 However, ultrashort laser irradiation has emerged as a robust and efficient alternative for producing diverse nanotextured surfaces, notably laser-induced periodic surface structures (LIPSS).…”

“…The evergreen world of nanostructured surfaces, which ascended on the shoulders of ultrashort laser–matter irradiation, is of high interest for various scientific, biomedical, and industrial applications . Numerous techniques are available for creating nanostructured surfaces, encompassing sputtering, chemical and plasma etching, chemical vapor deposition, , self-assembly, nanoimprint, optical, electron beam, and physical lithography, , and more . However, ultrashort laser irradiation has emerged as a robust and efficient alternative for producing diverse nanotextured surfaces, notably laser-induced periodic surface structures (LIPSS). − LIPSS represents a captivating realm of research, presenting promising applications spanning hydrogen evolution, photochemical water splitting, , solar-thermal conversion, data storage, surface chemistry, photodetectors, and biomedical applications. − This burgeoning field of nanopatterning serves as the cornerstone of fields such as the semiconductor industry, microelectronics, and photocatalysis .…”

Nanotubular Arrayed LIPSS Achieved with Femtosecond Bessel Beam on Silver Surface for SERS-Based Multiple Explosive Sensing

Femtosecond Bessel beam induced ladder-like LIPSS on trimetallic surface for SERS-based sensing of Tetryl and PETN

Cutting-edge progress in green technologies for resistant starch type 3 and type 5 preparation: An updated review