SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2044375565> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W2044375565 endingPage "3026" @default.
W2044375565 startingPage "3022" @default.
W2044375565 abstract "Today, nanoparticles are widely implemented as functional elements onto surfaces, into volumes and as nano-hybrids, resulting for example in bioactive composites and biomolecule conjugates. However, only limited varieties of materials compatible for integration into advanced functional materials are available: nanoparticles synthesized using conventional gas phase processes are often agglomerated into micro powders that are hard to re-disperse into functional matrices. Chemical synthesis methods often lead to impurities of the nanoparticle colloids caused by additives and precursor reaction products. In the last decade, laser ablation and nanoparticle generation in liquids has proven to be a unique and efficient technique to generate, excite, fragment, and conjugate a large variety of nanostructures in a scalable and clean manner. This editorial briefly highlights selected recent advancements and critical aspects in the field of pulsed laser-based nanoparticle generation and manipulation, including exemplary strategies to harvest the unique properties of the laser-generated nanomaterials in the field of biomedicine and catalysis. The presented critical aspects address future assignments such as size control and scale-up." @default.
W2044375565 created "2016-06-24" @default.
W2044375565 creator A5025875670 @default.
W2044375565 creator A5063915464 @default.
W2044375565 date "2013-01-01" @default.
W2044375565 modified "2023-10-13" @default.
W2044375565 title "Advanced nanoparticle generation and excitation by lasers in liquids" @default.
W2044375565 cites W1964435960 @default.
W2044375565 cites W1967761548 @default.
W2044375565 cites W1971997901 @default.
W2044375565 cites W1977035224 @default.
W2044375565 cites W1982722185 @default.
W2044375565 cites W1982884613 @default.
W2044375565 cites W1988374552 @default.
W2044375565 cites W1994709996 @default.
W2044375565 cites W1998819457 @default.
W2044375565 cites W1999336444 @default.
W2044375565 cites W2003777533 @default.
W2044375565 cites W2003965878 @default.
W2044375565 cites W2004664887 @default.
W2044375565 cites W2005744076 @default.
W2044375565 cites W2007690077 @default.
W2044375565 cites W2018404768 @default.
W2044375565 cites W2020761201 @default.
W2044375565 cites W2023906840 @default.
W2044375565 cites W2026737832 @default.
W2044375565 cites W2030345105 @default.
W2044375565 cites W2041344570 @default.
W2044375565 cites W2042424702 @default.
W2044375565 cites W2042465345 @default.
W2044375565 cites W2061174106 @default.
W2044375565 cites W2061994663 @default.
W2044375565 cites W2064117593 @default.
W2044375565 cites W2072516544 @default.
W2044375565 cites W2078206899 @default.
W2044375565 cites W2079378240 @default.
W2044375565 cites W2079516321 @default.
W2044375565 cites W2090417514 @default.
W2044375565 cites W2099809707 @default.
W2044375565 cites W2107729400 @default.
W2044375565 cites W2110130650 @default.
W2044375565 cites W2113403651 @default.
W2044375565 cites W2119588358 @default.
W2044375565 cites W2121399073 @default.
W2044375565 cites W2127885894 @default.
W2044375565 cites W2130128960 @default.
W2044375565 cites W2135097033 @default.
W2044375565 cites W2141254464 @default.
W2044375565 cites W2146037666 @default.
W2044375565 cites W2161396954 @default.
W2044375565 cites W2163251294 @default.
W2044375565 cites W2314217080 @default.
W2044375565 cites W2315507965 @default.
W2044375565 cites W2317435253 @default.
W2044375565 cites W2322276031 @default.
W2044375565 cites W2324858554 @default.
W2044375565 cites W2328821159 @default.
W2044375565 doi "https://doi.org/10.1039/c2cp90132c" @default.
W2044375565 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23138867" @default.
W2044375565 hasPublicationYear "2013" @default.
W2044375565 type Work @default.
W2044375565 sameAs 2044375565 @default.
W2044375565 citedByCount "229" @default.
W2044375565 countsByYear W20443755652013 @default.
W2044375565 countsByYear W20443755652014 @default.
W2044375565 countsByYear W20443755652015 @default.
W2044375565 countsByYear W20443755652016 @default.
W2044375565 countsByYear W20443755652017 @default.
W2044375565 countsByYear W20443755652018 @default.
W2044375565 countsByYear W20443755652019 @default.
W2044375565 countsByYear W20443755652020 @default.
W2044375565 countsByYear W20443755652021 @default.
W2044375565 countsByYear W20443755652022 @default.
W2044375565 countsByYear W20443755652023 @default.
W2044375565 crossrefType "journal-article" @default.
W2044375565 hasAuthorship W2044375565A5025875670 @default.
W2044375565 hasAuthorship W2044375565A5063915464 @default.
W2044375565 hasConcept C100536367 @default.
W2044375565 hasConcept C120665830 @default.
W2044375565 hasConcept C121332964 @default.
W2044375565 hasConcept C123424951 @default.
W2044375565 hasConcept C138631740 @default.
W2044375565 hasConcept C155672457 @default.
W2044375565 hasConcept C171250308 @default.
W2044375565 hasConcept C186187911 @default.
W2044375565 hasConcept C192562407 @default.
W2044375565 hasConcept C200649887 @default.
W2044375565 hasConcept C2779188808 @default.
W2044375565 hasConcept C49853544 @default.
W2044375565 hasConcept C520434653 @default.
W2044375565 hasConceptScore W2044375565C100536367 @default.
W2044375565 hasConceptScore W2044375565C120665830 @default.
W2044375565 hasConceptScore W2044375565C121332964 @default.
W2044375565 hasConceptScore W2044375565C123424951 @default.
W2044375565 hasConceptScore W2044375565C138631740 @default.
W2044375565 hasConceptScore W2044375565C155672457 @default.
W2044375565 hasConceptScore W2044375565C171250308 @default.
W2044375565 hasConceptScore W2044375565C186187911 @default.