SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4288061297> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W4288061297 endingPage "2587" @default.
W4288061297 startingPage "2579" @default.
W4288061297 abstract "Lateral flow assays play a key role in mass testing for COVID-19, for example, in schools. The red color of the detection lines is caused by gold nanoparticles that are conjugated to antibodies. Hence, these tests present a very topical learning opportunity in the emerging field of nanoscience. To highlight the role of gold nanoparticles, a low-cost model of a lateral flow test was developed and used in high school. First, peptide-conjugated gold or silver nanoparticles are synthesized. During the reaction, color changes occur that can be explained by the increasing nanoparticle size. The product solution is then used for the assembly of a model lateral flow test. All of the experiments can be performed by high school students. The modeling of this state-of-the-art analytical method can support learning in nanoscience and can provide insights into the nature of scientific models." @default.
W4288061297 created "2022-07-28" @default.
W4288061297 creator A5004884481 @default.
W4288061297 creator A5039964761 @default.
W4288061297 creator A5064723650 @default.
W4288061297 date "2022-06-09" @default.
W4288061297 modified "2023-09-25" @default.
W4288061297 title "Why Is There a Red Line? A High School Experiment to Model the Role of Gold Nanoparticles in Lateral Flow Assays for COVID-19" @default.
W4288061297 cites W1679270262 @default.
W4288061297 cites W1995117768 @default.
W4288061297 cites W2005865431 @default.
W4288061297 cites W2018960142 @default.
W4288061297 cites W2024127713 @default.
W4288061297 cites W2034341767 @default.
W4288061297 cites W2037744694 @default.
W4288061297 cites W2045913891 @default.
W4288061297 cites W2052540795 @default.
W4288061297 cites W2058795522 @default.
W4288061297 cites W2081090017 @default.
W4288061297 cites W2084694036 @default.
W4288061297 cites W2090760583 @default.
W4288061297 cites W2092831938 @default.
W4288061297 cites W2092893518 @default.
W4288061297 cites W2092904110 @default.
W4288061297 cites W2094997933 @default.
W4288061297 cites W2095400285 @default.
W4288061297 cites W2107565692 @default.
W4288061297 cites W2167277185 @default.
W4288061297 cites W2257529602 @default.
W4288061297 cites W2285696848 @default.
W4288061297 cites W2500982759 @default.
W4288061297 cites W2550788816 @default.
W4288061297 cites W2579934104 @default.
W4288061297 cites W2592344613 @default.
W4288061297 cites W2626322781 @default.
W4288061297 cites W2794412935 @default.
W4288061297 cites W2801018877 @default.
W4288061297 cites W2883365277 @default.
W4288061297 cites W2919408988 @default.
W4288061297 cites W2931219113 @default.
W4288061297 cites W2965659458 @default.
W4288061297 cites W2971501871 @default.
W4288061297 cites W2996869696 @default.
W4288061297 cites W2997242469 @default.
W4288061297 cites W3003648949 @default.
W4288061297 cites W3011047588 @default.
W4288061297 cites W3020308713 @default.
W4288061297 cites W3023759097 @default.
W4288061297 cites W3041626911 @default.
W4288061297 cites W3041759075 @default.
W4288061297 cites W3042507835 @default.
W4288061297 cites W3047334680 @default.
W4288061297 cites W3094213759 @default.
W4288061297 cites W3114677067 @default.
W4288061297 cites W3125933764 @default.
W4288061297 cites W3128504363 @default.
W4288061297 cites W3139399838 @default.
W4288061297 cites W3157152871 @default.
W4288061297 cites W3168785831 @default.
W4288061297 cites W3179148288 @default.
W4288061297 cites W3181755426 @default.
W4288061297 cites W3200992310 @default.
W4288061297 cites W3206274525 @default.
W4288061297 cites W4200580198 @default.
W4288061297 cites W4210579844 @default.
W4288061297 cites W4248059810 @default.
W4288061297 cites W4252072874 @default.
W4288061297 cites W3048144233 @default.
W4288061297 doi "https://doi.org/10.1021/acs.jchemed.2c00094" @default.
W4288061297 hasPublicationYear "2022" @default.
W4288061297 type Work @default.
W4288061297 citedByCount "3" @default.
W4288061297 countsByYear W42880612972022 @default.
W4288061297 countsByYear W42880612972023 @default.
W4288061297 crossrefType "journal-article" @default.
W4288061297 hasAuthorship W4288061297A5004884481 @default.
W4288061297 hasAuthorship W4288061297A5039964761 @default.
W4288061297 hasAuthorship W4288061297A5064723650 @default.
W4288061297 hasConcept C104819515 @default.
W4288061297 hasConcept C112613896 @default.
W4288061297 hasConcept C121332964 @default.
W4288061297 hasConcept C142724271 @default.
W4288061297 hasConcept C155672457 @default.
W4288061297 hasConcept C171250308 @default.
W4288061297 hasConcept C178790620 @default.
W4288061297 hasConcept C185592680 @default.
W4288061297 hasConcept C192562407 @default.
W4288061297 hasConcept C2779134260 @default.
W4288061297 hasConcept C3008058167 @default.
W4288061297 hasConcept C31499863 @default.
W4288061297 hasConcept C38349280 @default.
W4288061297 hasConcept C41008148 @default.
W4288061297 hasConcept C521977710 @default.
W4288061297 hasConcept C524204448 @default.
W4288061297 hasConcept C57879066 @default.
W4288061297 hasConcept C71924100 @default.
W4288061297 hasConceptScore W4288061297C104819515 @default.
W4288061297 hasConceptScore W4288061297C112613896 @default.