SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2113562115> ?p ?o ?g. }

Showing items 1 to 100 of ±186 with 100 items per page.

W2113562115 endingPage "11968" @default.
W2113562115 startingPage "11956" @default.
W2113562115 abstract "Abstract The popularity of dedicated microwave reactors in many academic and industrial laboratories has produced a plethora of synthetic protocols that are based on this enabling technology. In the majority of examples, transformations that require several hours when performed using conventional heating under reflux conditions reach completion in a few minutes or even seconds in sealed‐vessel, autoclave‐type, microwave reactors. However, one severe drawback of microwave chemistry is the difficulty in scaling this technology to a production‐scale level. This Concept article demonstrates that this limitation can be overcome by translating batch microwave chemistry to scalable continuous‐flow processes. For this purpose, conventionally heated micro‐ or mesofluidic flow devices fitted with a back‐pressure regulator are employed, in which the high temperatures and pressures attainable in a sealed‐vessel microwave chemistry batch experiment can be mimicked." @default.
W2113562115 created "2016-06-24" @default.
W2113562115 creator A5063134639 @default.
W2113562115 creator A5078800097 @default.
W2113562115 date "2011-09-20" @default.
W2113562115 modified "2023-10-18" @default.
W2113562115 title "The Microwave-to-Flow Paradigm: Translating High-Temperature Batch Microwave Chemistry to Scalable Continuous-Flow Processes" @default.
W2113562115 cites W1963856269 @default.
W2113562115 cites W1971778498 @default.
W2113562115 cites W1971850541 @default.
W2113562115 cites W1976297907 @default.
W2113562115 cites W1977043426 @default.
W2113562115 cites W1978925211 @default.
W2113562115 cites W1979013648 @default.
W2113562115 cites W1980239816 @default.
W2113562115 cites W1985126041 @default.
W2113562115 cites W1988845494 @default.
W2113562115 cites W1989984932 @default.
W2113562115 cites W1990388390 @default.
W2113562115 cites W1992514547 @default.
W2113562115 cites W1995833390 @default.
W2113562115 cites W1996958456 @default.
W2113562115 cites W2001144724 @default.
W2113562115 cites W2001492558 @default.
W2113562115 cites W2007569098 @default.
W2113562115 cites W2010332559 @default.
W2113562115 cites W2011994063 @default.
W2113562115 cites W2026519604 @default.
W2113562115 cites W2027404044 @default.
W2113562115 cites W2034137439 @default.
W2113562115 cites W2040941091 @default.
W2113562115 cites W2053617085 @default.
W2113562115 cites W2053671014 @default.
W2113562115 cites W2056522279 @default.
W2113562115 cites W2057099314 @default.
W2113562115 cites W2061552849 @default.
W2113562115 cites W2063351848 @default.
W2113562115 cites W2071785669 @default.
W2113562115 cites W2073926985 @default.
W2113562115 cites W2077447701 @default.
W2113562115 cites W2081988678 @default.
W2113562115 cites W2082557668 @default.
W2113562115 cites W2086156805 @default.
W2113562115 cites W2086950998 @default.
W2113562115 cites W2087659295 @default.
W2113562115 cites W2091881136 @default.
W2113562115 cites W2093251697 @default.
W2113562115 cites W2093300134 @default.
W2113562115 cites W2093868716 @default.
W2113562115 cites W2094320082 @default.
W2113562115 cites W2094886308 @default.
W2113562115 cites W2103338879 @default.
W2113562115 cites W2108647642 @default.
W2113562115 cites W2111769894 @default.
W2113562115 cites W2113192483 @default.
W2113562115 cites W2121778419 @default.
W2113562115 cites W2121818469 @default.
W2113562115 cites W2122075967 @default.
W2113562115 cites W2123021412 @default.
W2113562115 cites W2127588963 @default.
W2113562115 cites W2134382068 @default.
W2113562115 cites W2134612499 @default.
W2113562115 cites W2135087371 @default.
W2113562115 cites W2135213872 @default.
W2113562115 cites W2139664113 @default.
W2113562115 cites W2140659872 @default.
W2113562115 cites W2142495898 @default.
W2113562115 cites W2144073552 @default.
W2113562115 cites W2145392776 @default.
W2113562115 cites W2146993554 @default.
W2113562115 cites W2149841999 @default.
W2113562115 cites W2150412246 @default.
W2113562115 cites W2153184522 @default.
W2113562115 cites W2161304031 @default.
W2113562115 cites W2163322780 @default.
W2113562115 cites W2170063680 @default.
W2113562115 cites W2170424911 @default.
W2113562115 cites W2317278911 @default.
W2113562115 cites W2318169400 @default.
W2113562115 cites W2327586647 @default.
W2113562115 cites W2329812413 @default.
W2113562115 cites W2332507347 @default.
W2113562115 cites W2481114765 @default.
W2113562115 cites W2952139546 @default.
W2113562115 cites W4205647119 @default.
W2113562115 cites W4230346864 @default.
W2113562115 cites W4231472688 @default.
W2113562115 cites W4236333817 @default.
W2113562115 cites W4237687128 @default.
W2113562115 cites W4249662892 @default.
W2113562115 cites W4253166950 @default.
W2113562115 cites W4256047059 @default.
W2113562115 cites W4379092045 @default.
W2113562115 cites W4380145284 @default.
W2113562115 cites W87199714 @default.
W2113562115 doi "https://doi.org/10.1002/chem.201102065" @default.
W2113562115 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21932289" @default.
W2113562115 hasPublicationYear "2011" @default.