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W126238052 startingPage "149" @default.
W126238052 abstract "Until recently, Brownian motion was seen as an immutable feature of small particles in room-temperature liquids. Molecules, viruses, organelles, and small cells jiggle incessantly due to countless collisions with thermally agitated molecules of solvent. Einstein showed in 1905 that this motion is intimately linked to the tendency of every system to relax toward thermal equilibrium. In recent years, we and others have realized that Brownian motion is not as inescapable as one might think. By tracking the motion of a small particle and applying correction forces to the particle or to the measurement apparatus, one can largely suppress the Brownian motion of particles as small as a few nanometers in diameter, in aqueous solution at room temperature. This new ability to stabilize single molecules has led to a host of studies on topics ranging from the conformational dynamics of DNA to the optical properties of metal nanoparticles. In this review, we outline the physical principles behind suppression of Brownian motion. We discuss the relative merits of several systems that have been implemented. We give examples of studies performed with our anti-Brownian Electrokinetic trap (ABEL trap) as well as other anti-Brownian traps, and we discuss prospects for future research." @default.
W126238052 created "2016-06-24" @default.
W126238052 creator A5061564124 @default.
W126238052 creator A5067931881 @default.
W126238052 date "2010-01-01" @default.
W126238052 modified "2023-10-16" @default.
W126238052 title "Anti-Brownian Traps for Studies on Single Molecules" @default.
W126238052 cites W1964329844 @default.
W126238052 cites W1964814298 @default.
W126238052 cites W1970677189 @default.
W126238052 cites W1973734527 @default.
W126238052 cites W1975536891 @default.
W126238052 cites W1977079321 @default.
W126238052 cites W1978060081 @default.
W126238052 cites W1983756606 @default.
W126238052 cites W1990245659 @default.
W126238052 cites W1994623710 @default.
W126238052 cites W1994674823 @default.
W126238052 cites W1997630751 @default.
W126238052 cites W1997634381 @default.
W126238052 cites W1998085468 @default.
W126238052 cites W1999250123 @default.
W126238052 cites W2000706377 @default.
W126238052 cites W2008637692 @default.
W126238052 cites W2009235335 @default.
W126238052 cites W2012350022 @default.
W126238052 cites W2016208922 @default.
W126238052 cites W2020806782 @default.
W126238052 cites W2022440598 @default.
W126238052 cites W2024316435 @default.
W126238052 cites W2030765885 @default.
W126238052 cites W2031822229 @default.
W126238052 cites W2034426095 @default.
W126238052 cites W2034538112 @default.
W126238052 cites W2042607731 @default.
W126238052 cites W2048299416 @default.
W126238052 cites W2050926360 @default.
W126238052 cites W2052034198 @default.
W126238052 cites W2053375865 @default.
W126238052 cites W2054363349 @default.
W126238052 cites W2060395501 @default.
W126238052 cites W2062559673 @default.
W126238052 cites W2068049845 @default.
W126238052 cites W2069175692 @default.
W126238052 cites W2074611235 @default.
W126238052 cites W2082801721 @default.
W126238052 cites W2083184655 @default.
W126238052 cites W2089833507 @default.
W126238052 cites W2092640602 @default.
W126238052 cites W2124437708 @default.
W126238052 cites W2128479875 @default.
W126238052 cites W2128944720 @default.
W126238052 cites W2136290525 @default.
W126238052 cites W2137413236 @default.
W126238052 cites W2139875839 @default.
W126238052 cites W2140155866 @default.
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W126238052 cites W2142961247 @default.
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W126238052 cites W2162435350 @default.
W126238052 cites W2166053360 @default.
W126238052 cites W2167258646 @default.
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W126238052 doi "https://doi.org/10.1016/s0076-6879(10)75007-2" @default.
W126238052 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20627157" @default.
W126238052 hasPublicationYear "2010" @default.
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