Viscoelastic properties of colloidal systems with attractive solid particles at low concentration: A review, new results and interpretations

This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume fraction f is small. Unlike the high ϕ regime, which is well understood in terms of mode-coupling theory (MCT), the low ϕ regime is still the s...

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Published inAdvances in colloid and interface science Vol. 335; p. 103335
Main Authors Martinoty, Philippe, Sánchez-Ferrer, Antoni
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.01.2025
Subjects
Cluster fluids
Colloids
DLCA
Gels
Jammed systems
Percolation
RDLCA
RLCA
Gels
Cluster fluids
Colloids
DLCA
Percolation
Jammed systems
RDLCA
RLCA
Online AccessGet full text
ISSN0001-8686
1873-3727
1873-3727
DOI10.1016/j.cis.2024.103335

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Abstract This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume fraction f is small. Unlike the high ϕ regime, which is well understood in terms of mode-coupling theory (MCT), the low ϕ regime is still the subject of a debate based on different concepts such as percolation, diffusion-limited colloidal aggregation (DLCA), jamming, or cluster mode-coupling approach. Prior to the analysis of three examples of attractive systems at low ϕ values, a summary of concepts relevant to understanding the formation and properties of such attractive particles is discussed in the present study. Afterwards, we re-analyze the behaviour at a low ϕ of i) suspensions of carbon black (CB) particles, ii) suspensions of poly(methyl methacrylate) (PMMA) hard spheres with a depletion attraction induced by the addition of polystyrene (PS), and iii) suspensions of amino acid organogelator molecules which form rod-like objects. The rheological properties of these systems have been studied in detail and their response has been interpreted as being due either to a solid network discussed in relation to the jamming state diagram or to a suspension formed by jamming of clusters. Our analysis shows that these three systems are in fact cluster fluids and that their solid-like response corresponds to a change in their viscoelastic response, the elastic component G' becoming greater than the viscous component G" at low frequencies. Due to the presence of weak interparticle interactions in the tens range from 1 to 15 kBT, a liquid-like state is reversibly achieved at high frequencies, as indicated by the crossover of G' and G" as a function of frequency for a given concentration. Moreover, all these attractive particle systems at low ϕ show for both moduli a master curve which characterizes these cluster fluids and allows for the classification of these attractive particle systems. [Display omitted] •Viscoelastic properties and structure determination of colloidal systems with attractive particles at low concentrations ϕ.•Demonstration that these systems are cluster fluids together with a master curve showing a crossover between G' and G".•Review of the liquid-to-solid transition, i.e., gelation, aggregation, jamming, and cluster mode-coupling approach.•Description of the models for describing gelation – critical gel; DLCA, RDLCA and RCLA; jamming processes.
AbstractList This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume fraction f is small. Unlike the high ϕ regime, which is well understood in terms of mode-coupling theory (MCT), the low ϕ regime is still the subject of a debate based on different concepts such as percolation, diffusion-limited colloidal aggregation (DLCA), jamming, or cluster mode-coupling approach. Prior to the analysis of three examples of attractive systems at low ϕ values, a summary of concepts relevant to understanding the formation and properties of such attractive particles is discussed in the present study. Afterwards, we re-analyze the behaviour at a low ϕ of i) suspensions of carbon black (CB) particles, ii) suspensions of poly(methyl methacrylate) (PMMA) hard spheres with a depletion attraction induced by the addition of polystyrene (PS), and iii) suspensions of amino acid organogelator molecules which form rod-like objects. The rheological properties of these systems have been studied in detail and their response has been interpreted as being due either to a solid network discussed in relation to the jamming state diagram or to a suspension formed by jamming of clusters. Our analysis shows that these three systems are in fact cluster fluids and that their solid-like response corresponds to a change in their viscoelastic response, the elastic component G' becoming greater than the viscous component G" at low frequencies. Due to the presence of weak interparticle interactions in the tens range from 1 to 15 kBT, a liquid-like state is reversibly achieved at high frequencies, as indicated by the crossover of G' and G" as a function of frequency for a given concentration. Moreover, all these attractive particle systems at low ϕ show for both moduli a master curve which characterizes these cluster fluids and allows for the classification of these attractive particle systems.This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume fraction f is small. Unlike the high ϕ regime, which is well understood in terms of mode-coupling theory (MCT), the low ϕ regime is still the subject of a debate based on different concepts such as percolation, diffusion-limited colloidal aggregation (DLCA), jamming, or cluster mode-coupling approach. Prior to the analysis of three examples of attractive systems at low ϕ values, a summary of concepts relevant to understanding the formation and properties of such attractive particles is discussed in the present study. Afterwards, we re-analyze the behaviour at a low ϕ of i) suspensions of carbon black (CB) particles, ii) suspensions of poly(methyl methacrylate) (PMMA) hard spheres with a depletion attraction induced by the addition of polystyrene (PS), and iii) suspensions of amino acid organogelator molecules which form rod-like objects. The rheological properties of these systems have been studied in detail and their response has been interpreted as being due either to a solid network discussed in relation to the jamming state diagram or to a suspension formed by jamming of clusters. Our analysis shows that these three systems are in fact cluster fluids and that their solid-like response corresponds to a change in their viscoelastic response, the elastic component G' becoming greater than the viscous component G" at low frequencies. Due to the presence of weak interparticle interactions in the tens range from 1 to 15 kBT, a liquid-like state is reversibly achieved at high frequencies, as indicated by the crossover of G' and G" as a function of frequency for a given concentration. Moreover, all these attractive particle systems at low ϕ show for both moduli a master curve which characterizes these cluster fluids and allows for the classification of these attractive particle systems.
This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume fraction f is small. Unlike the high ϕ regime, which is well understood in terms of mode-coupling theory (MCT), the low ϕ regime is still the subject of a debate based on different concepts such as percolation, diffusion-limited colloidal aggregation (DLCA), jamming, or cluster mode-coupling approach. Prior to the analysis of three examples of attractive systems at low ϕ values, a summary of concepts relevant to understanding the formation and properties of such attractive particles is discussed in the present study. Afterwards, we re-analyze the behaviour at a low ϕ of i) suspensions of carbon black (CB) particles, ii) suspensions of poly(methyl methacrylate) (PMMA) hard spheres with a depletion attraction induced by the addition of polystyrene (PS), and iii) suspensions of amino acid organogelator molecules which form rod-like objects. The rheological properties of these systems have been studied in detail and their response has been interpreted as being due either to a solid network discussed in relation to the jamming state diagram or to a suspension formed by jamming of clusters. Our analysis shows that these three systems are in fact cluster fluids and that their solid-like response corresponds to a change in their viscoelastic response, the elastic component G' becoming greater than the viscous component G" at low frequencies. Due to the presence of weak interparticle interactions in the tens range from 1 to 15 k T, a liquid-like state is reversibly achieved at high frequencies, as indicated by the crossover of G' and G" as a function of frequency for a given concentration. Moreover, all these attractive particle systems at low ϕ show for both moduli a master curve which characterizes these cluster fluids and allows for the classification of these attractive particle systems.
This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume fraction f is small. Unlike the high ϕ regime, which is well understood in terms of mode-coupling theory (MCT), the low ϕ regime is still the subject of a debate based on different concepts such as percolation, diffusion-limited colloidal aggregation (DLCA), jamming, or cluster mode-coupling approach. Prior to the analysis of three examples of attractive systems at low ϕ values, a summary of concepts relevant to understanding the formation and properties of such attractive particles is discussed in the present study. Afterwards, we re-analyze the behaviour at a low ϕ of i) suspensions of carbon black (CB) particles, ii) suspensions of poly(methyl methacrylate) (PMMA) hard spheres with a depletion attraction induced by the addition of polystyrene (PS), and iii) suspensions of amino acid organogelator molecules which form rod-like objects. The rheological properties of these systems have been studied in detail and their response has been interpreted as being due either to a solid network discussed in relation to the jamming state diagram or to a suspension formed by jamming of clusters. Our analysis shows that these three systems are in fact cluster fluids and that their solid-like response corresponds to a change in their viscoelastic response, the elastic component G' becoming greater than the viscous component G" at low frequencies. Due to the presence of weak interparticle interactions in the tens range from 1 to 15 kBT, a liquid-like state is reversibly achieved at high frequencies, as indicated by the crossover of G' and G" as a function of frequency for a given concentration. Moreover, all these attractive particle systems at low ϕ show for both moduli a master curve which characterizes these cluster fluids and allows for the classification of these attractive particle systems. [Display omitted] •Viscoelastic properties and structure determination of colloidal systems with attractive particles at low concentrations ϕ.•Demonstration that these systems are cluster fluids together with a master curve showing a crossover between G' and G".•Review of the liquid-to-solid transition, i.e., gelation, aggregation, jamming, and cluster mode-coupling approach.•Description of the models for describing gelation – critical gel; DLCA, RDLCA and RCLA; jamming processes.
ArticleNumber 103335
Author Sánchez-Ferrer, Antoni
Martinoty, Philippe
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  givenname: Philippe
  surname: Martinoty
  fullname: Martinoty, Philippe
  organization: Institut Charles Sadron, UPR 22, CNRS/UDS, 23 rue du Loess, BP 84047, F-67034 Strasbourg, France
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  givenname: Antoni
  surname: Sánchez-Ferrer
  fullname: Sánchez-Ferrer, Antoni
  email: sanchez@hfm.tum.de
  organization: Technical University of Munich, Wood Research Munich, Winzererstrasse 45, D-80797 Munich, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/39541869$$D View this record in MEDLINE/PubMed
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Keywords Gels
Cluster fluids
Colloids
DLCA
Percolation
Jammed systems
RDLCA
RLCA
Language English
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Pham, Puertas, Bergenholtz, Egelhaaf, Moussaid, Pusey (bb0105) 2002; 296
Lin, Lindsay, Weitz, Ball, Klein, Meakin (bb0790) 1989; 339
Weitz, Lin (bb0785) 1986; 57
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Lu, Sims, Oki, Macarthur, Weitz (bb1015) 2007; 15
Martin (bb0420) 1987; 36
Won, Meeker, Trappe, Weitz, Diggs, Emert (bb0135) 2005; 21
Daoud, Leibler (bb0395) 1988; 21
Yu, Chaikin, Orbach (bb0275) 1983; 28
Family, Meakin, Vicsek (bb0730) 1985; 83
Pusey, van Megen (bb0040) 1987; 59
Pham, Petekidis, Vlassopoulos, Egelhaaf, Pusey, Poon (bb0990) 2006; 75
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Allain, Salome (bb0220) 1987; 20
Muthukumar (bb0240) 1989; 22
Dawson (bb0970) 2002; 7
Ikeda, Berthier, Sollich (bb0915) 2012; 109
Nijenhuis (bb0030) 1997
Plischke, Joos (bb0635) 1998; 80
Thorpe, Garboczi (bb0545) 1987; 35
Prasad, Trappe, Dinsmore, Segre, Cipelletti, Weitz (bb0130) 2003; 123
de Gennes (bb0210) 1976; 37
Martin, Wilcoxon, Schaeffer, Odineck (bb0415) 1990; 41
Tokita, Niki, Hikichi (bb0610) 1985; 83
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Gawlinsky, Stanley (bb0180) 1981; 14
Guenet (bb1040) 2016
Adolf, Martin, Wilcoxon (bb0280) 1990; 23
Negi, Osuji (bb0685) 2010; 90
Adam, Lairez (bb0025) 1996
Stauffer (bb0205) 1976; 2
Weitz, Huang, Lin, Sung (bb0770) 1985; 53
Lemieux, Breton, Tremblay (bb0510) 1985; 46
Chen, Wen, Janmey, Crocker, Yodh (bb0145) 2010; 1
Kolb, Botet, Jullien (bb0700) 1983; 51
Herrmann, Derrida, Vannimenus (bb0250) 1984; 30
Agrawal, Redner, Reynolds, Stanley (bb0380) 1979; 12
Sato, Watanabe, Osaki (bb0450) 2000; 33
Terech, Weiss (bb1035) 2014; 136
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Lusignan, Mourey, Wilson, Colby (bb0350) 1995; 52
Herzhaft, Kakadjian, Moan (bb0925) 2005; 263
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Aoki, Li, Kakiuchi (bb0440) 1998; 31
Ikeda, Berthier, Sollich (bb0920) 2013; 9
Takahashi, Yokoyama, Masuda, Takigawa (bb0360) 1994; 101
Jullien, Kolb (bb0720) 1984; 17
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Fabbian, Götze, Sciortino, Tartaglia, Thiery (bb0955) 1999; 59
Plischke, Vernon, Joos, Zhou (bb0640) 1999; 60
Antonietti, Folsch, Sillescu, Pakula (bb0335) 1989; 22
Dawson, Foffi, Fuchs, Götze, Sciortino, Sperl (bb0965) 2000; 63
Nakanishi, Reynolds (bb0385) 1979; 71A
Arbabi, Sahimi (bb0505) 1988; 21
Izuka, Winter, Hashimoto (bb0330) 1994; 27
de Rosa, Mours, Winter (bb0345) 1997; 1997
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Eberle, Castañeda-Priego, Kim, Wagner (bb0070) 2012; 28
Derrida, Stauffer, Herrmann, Vannimenus (bb0245) 1983; 44
Day, Tremblay, Tremblay (bb0515) 1986; 56
Lu, Conrad, Wyss, Schofield, Weitz (bb1020) 2006; 96
Eloundou, Gerard, Harran, Pascault (bb0295) 1996; 29
Richtering, Gagnon, Lenz, Fuller, Winter (bb0460) 1992; 25
Sahimi (bb0570) 1986; 19
Shaeffer, Martin, Wiltzius, Cannell (bb0800) 1984; 52
Martin, Adolf, Odineck (bb0400) 1990; 40
Kolb, Jullien (bb0715) 1984; 45
Haw, Sievwright, Poon, Pusey (bb0885) 1995; 62
Gauthier-Manuel, Guyon, Roux, Gits, Lefaucheux (bb0605) 1987; 48
Vicsek, Family (bb0710) 1984; 52
Weitz, Huang, Lin, Sung (bb0775) 1985; 54
Jacquin, Berthier, Zamponi (bb0935) 2011; 106
Petekidis, Vlassopoulos, Pusey (bb0665) 2004; 16
Weitz, Oliveria (bb0765) 1984; 52
Garboczi, Thorpe (bb0535) 1985; 32
Bonn, Coussot, Huynh, Bertrand, Debregeas (bb0670) 2002; 59
Dietler, Aubert, Cannell, Wiltzius (bb0810) 1986; 57
Cao, Cummins, Morris (bb0830) 2010; 6
te Nijenhuis, Winter (bb0425) 1989; 22
Pusey, van Megen (bb0035) 1986; 320
Lu, Zaccarelli, Ciulla, Schofield, Sciortino, Weitz (bb1025) 2008; 453
Hodgson, Amis (bb0410) 1990; 41
Gingold, Lobb (bb0495) 1990; 42
Ciamarra, Nicodemi, Coniglio (bb0910) 2010; 6
Zaccarelli, Lu, Ciulla, Weitz, Sciortino (bb1030) 2008; 20
Dinsmore, Weitz (bb1010) 2002; 14
Matejka (bb0285) 1991; 26
Feng, Sen, Halperin, Lobb (bb0555) 1984; 30
Vrij (bb0090) 1976; 48
Poon (bb0095) 2002; 14
Ball, Weitz, Witten, Leyvraz (bb0740) 1987; 58
Martin, Adolf, Wilcoxon (bb0230) 1989; 39
Eberle, Wagner, Castañeda-Priego (bb0065) 2011; 106
Chambon, Petrovic, MacKnight, Winter (bb0315) 1986; 19
Colby, Gillmor, Rubinstein (bb0355) 1993; 48
Feng, Sen (bb0490) 1984; 52
Miyoshi, Nishinari (bb0445) 1999; 114
Buscall, Mills, Goodwin, Lawson (bb0815) 1988; 84
de Groot, Macosko (bb0820) 1992; 1
Peyrelasse, Lamarque, Habas, El Bounia (bb0475) 1996; 53
Meakin, Vicsek, Family (bb0735) 1985; 31
Martinoty (bb0150) 2015
Joshi, Reddy (bb0675) 2008; 77
Martin, Schaefer (bb0795) 1984; 53
Farago, Kantor (bb0650) 2000; 85
Krall, Weitz (bb0840) 1998; 80
Liu, Nagel (bb0890) 1998; 396
Negi, Osuji (bb0690) 2010; 82
Segre, Prasad, Schofield, Weitz (bb0660) 2001; 86
Isaacson, Lubensky (bb0365) 1980; 41
Zabolitzky, Bergman, Stauffer (bb0580) 1986; 44
Joshi, Shahin, Cates (bb0680) 2012; 158
Meakin, Family (bb0745) 1988; 38
Brown, Ball (bb0725) 1985; 18
Arbabi, Sahimi (bb0500) 1993; 47
Stauffer, Coniglio, Adam (bb0015) 1982; 44
Plischke (bb0645) 2006; 73
Aubert, Cannell (bb0805) 1986; 56
de Hoog, Kegel, van Blaaderen, Lekkerkerker (bb1005) 2001; 64
Vicsek, Kertesz (bb0175) 1981; 14
Arbabi, Sahimi (bb0585) 1988; 38
Koumakis, Petekidis (bb0995) 2011; 7
Lois, Blawzdziewicz, O’Hern (bb0895) 2007; 7
Sonntag, Russel (bb0845) 1987; 116
Rubinstein, Colby (bb0010) 2003
Meakin (bb0695) 1983; 51
Jerauld (bb0520) 1985
Stauffer (bb0020) 1985
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Scalan, Winter (bb0340) 1991; 24
Cates, Fuchs, Kroy, Poon, Puertas (bb0945) 2004; 16
de Gennes (bb0370) 1980; 291
Li, Aoki (bb0430) 1997; 30
Mason, Weitz (bb0655) 1995; 75
Zabolitzky (bb0255) 1984; 30
Durand, Delsanti, Adam, Luck (bb0325) 1987; 3
Rogez, Krause, Martinoty (bb0155) 2018; 14
Pham, Egelhaaf, Pusey, Poon (bb0980) 2004; 69
Jullien, Kolb, Botet (bb0760) 1984; 45
Alexander (bb0270) 1984; 45
Flory (bb0190) 1941; 63
Grant, Russel (bb0055) 1993; 47
Winter, Morganelli, Chambon (bb0320) 1988; 21
Chambon, Winter (bb0165) 1987; 31
Shih, Shih, Kim, Liu, Aksay (bb0870) 1990; 42
Herrmann, Stauffer (bb0235) 1981; 44
Devreux, Boilot, Chaput, Malier, Axelos (bb0615) 1993; 47
Trappe, Prasad, Cipelletti, Segre, Weitz (bb0125) 2001; 411
Woignier, Phalippou, Sempere, Pelous (bb0600) 1988; 49
de Gennes (bb0215) 1979; 40
Rouw, de Kruif (bb0045) 1989; 39
Michon, Cuvelier, Launay (bb0470) 1993; 32
Stein, Assfalg, Finkelmann, Martinoty (bb0875) 2001; 4
Poon (bb0100) 2004; 29
Chambon, Winter (bb0160) 1986; 30
Aoki, Li, Uchida, Kakiuchi, Watanabe (bb0435) 1998; 31
Guenet (bb0485) 2008
Puertas, Fuchs, Cates (bb0985) 2002; 88
Frey, Cuculo, Khan (bb0465) 1996; 34
Shih, Liu, Shih, Aksay (bb0880) 1991; 62
Trappe, Weitz (bb0120) 2000; 85
Trappe, Richtering, Burchard (bb0310) 1992; 2
de Gennes (bb0005) 1979
Bergman (bb0565) 1985; 31
Verduin, Dhont (bb0825) 1995; 72
Adolf, Martin (bb0305) 1990; 23
Stockmayer (bb0200) 1944; 12
Thorpe (bb0625) 1985; 76
Kim, Fang, Eberle, Castañeda-Priego, Wagner (bb0080) 2013; 110
Garboczi, Thorpe (bb0540) 1986; 33
Carpineti, Giglio (bb0860) 1993; 70
Collin, Covis, Allix, Jamart-Gregoire, Martinoty (bb0140) 2013; 9
Brown (10.1016/j.cis.2024.103335_bb0375) 1975; 8
Chen (10.1016/j.cis.2024.103335_bb0145) 2010; 1
Bergenholtz (10.1016/j.cis.2024.103335_bb0950) 1999; 59
Martinoty (10.1016/j.cis.2024.103335_bb0150) 2015
Stein (10.1016/j.cis.2024.103335_bb0875) 2001; 4
Arbabi (10.1016/j.cis.2024.103335_bb0585) 1988; 38
Yu (10.1016/j.cis.2024.103335_bb0275) 1983; 28
Lois (10.1016/j.cis.2024.103335_bb0895) 2007; 7
Brown (10.1016/j.cis.2024.103335_bb0725) 1985; 18
de Gennes (10.1016/j.cis.2024.103335_bb0370) 1980; 291
Pham (10.1016/j.cis.2024.103335_bb0105) 2002; 296
Stockmayer (10.1016/j.cis.2024.103335_bb0200) 1944; 12
Benguigui (10.1016/j.cis.2024.103335_bb0590) 1984; 53
Sahimi (10.1016/j.cis.2024.103335_bb0260) 1993; 47
te Nijenhuis (10.1016/j.cis.2024.103335_bb0425) 1989; 22
Lu (10.1016/j.cis.2024.103335_bb1015) 2007; 15
Pham (10.1016/j.cis.2024.103335_bb0980) 2004; 69
Negi (10.1016/j.cis.2024.103335_bb0690) 2010; 82
Matejka (10.1016/j.cis.2024.103335_bb0285) 1991; 26
Isaacson (10.1016/j.cis.2024.103335_bb0365) 1980; 41
Segre (10.1016/j.cis.2024.103335_bb0660) 2001; 86
Cates (10.1016/j.cis.2024.103335_bb0945) 2004; 16
Mason (10.1016/j.cis.2024.103335_bb0930) 1996; 179
Jacquin (10.1016/j.cis.2024.103335_bb0935) 2011; 106
Derrida (10.1016/j.cis.2024.103335_bb0245) 1983; 44
Martin (10.1016/j.cis.2024.103335_bb0795) 1984; 53
Mortimer (10.1016/j.cis.2024.103335_bb0300) 2001; 34
Plischke (10.1016/j.cis.2024.103335_bb0635) 1998; 80
Zaccarelli (10.1016/j.cis.2024.103335_bb0115) 2007; 19
Gingold (10.1016/j.cis.2024.103335_bb0495) 1990; 42
Garboczi (10.1016/j.cis.2024.103335_bb0540) 1986; 33
Kroy (10.1016/j.cis.2024.103335_bb0940) 2004; 92
Dinsmore (10.1016/j.cis.2024.103335_bb1010) 2002; 14
Garboczi (10.1016/j.cis.2024.103335_bb0535) 1985; 32
Chambon (10.1016/j.cis.2024.103335_bb0315) 1986; 19
Izuka (10.1016/j.cis.2024.103335_bb0330) 1994; 27
Mason (10.1016/j.cis.2024.103335_bb0655) 1995; 75
Lu (10.1016/j.cis.2024.103335_bb1020) 2006; 96
van Hecke (10.1016/j.cis.2024.103335_bb0905) 2010; 22
Eberle (10.1016/j.cis.2024.103335_bb0065) 2011; 106
Gauthier-Manuel (10.1016/j.cis.2024.103335_bb0605) 1987; 48
Martin (10.1016/j.cis.2024.103335_bb0415) 1990; 41
Dietler (10.1016/j.cis.2024.103335_bb0810) 1986; 57
Bonn (10.1016/j.cis.2024.103335_bb0670) 2002; 59
Hodgson (10.1016/j.cis.2024.103335_bb0410) 1990; 41
Feng (10.1016/j.cis.2024.103335_bb0525) 1985; 31
Puertas (10.1016/j.cis.2024.103335_bb0985) 2002; 88
Ikeda (10.1016/j.cis.2024.103335_bb0915) 2012; 109
Weitz (10.1016/j.cis.2024.103335_bb0770) 1985; 53
Weitz (10.1016/j.cis.2024.103335_bb0785) 1986; 57
Dimon (10.1016/j.cis.2024.103335_bb0780) 1986; 57
Chambon (10.1016/j.cis.2024.103335_bb0165) 1987; 31
Krall (10.1016/j.cis.2024.103335_bb0840) 1998; 80
Guenet (10.1016/j.cis.2024.103335_bb0480) 1992
Plischke (10.1016/j.cis.2024.103335_bb0645) 2006; 73
Muthukumar (10.1016/j.cis.2024.103335_bb0240) 1989; 22
Peyrelasse (10.1016/j.cis.2024.103335_bb0475) 1996; 53
Aoki (10.1016/j.cis.2024.103335_bb0440) 1998; 31
Arbabi (10.1016/j.cis.2024.103335_bb0505) 1988; 21
Nakanishi (10.1016/j.cis.2024.103335_bb0385) 1979; 71A
Miyoshi (10.1016/j.cis.2024.103335_bb0445) 1999; 114
Lu (10.1016/j.cis.2024.103335_bb1025) 2008; 453
Lusignan (10.1016/j.cis.2024.103335_bb0350) 1995; 52
Ball (10.1016/j.cis.2024.103335_bb0740) 1987; 58
Trappe (10.1016/j.cis.2024.103335_bb0125) 2001; 411
Sonntag (10.1016/j.cis.2024.103335_bb0845) 1987; 116
Dawson (10.1016/j.cis.2024.103335_bb0970) 2002; 7
Prasad (10.1016/j.cis.2024.103335_bb0130) 2003; 123
Jerauld (10.1016/j.cis.2024.103335_bb0520) 1985
Family (10.1016/j.cis.2024.103335_bb0730) 1985; 83
Krall (10.1016/j.cis.2024.103335_bb0855) 1997; 235
He (10.1016/j.cis.2024.103335_bb0630) 1985; 54
Petekidis (10.1016/j.cis.2024.103335_bb0665) 2004; 16
Scalan (10.1016/j.cis.2024.103335_bb0340) 1991; 24
Dawson (10.1016/j.cis.2024.103335_bb0965) 2000; 63
Plischke (10.1016/j.cis.2024.103335_bb0640) 1999; 60
Haan (10.1016/j.cis.2024.103335_bb0170) 1977; 10
Liu (10.1016/j.cis.2024.103335_bb0890) 1998; 396
Joshi (10.1016/j.cis.2024.103335_bb0680) 2012; 158
Daoud (10.1016/j.cis.2024.103335_bb0395) 1988; 21
Lin (10.1016/j.cis.2024.103335_bb0790) 1989; 339
Eloundou (10.1016/j.cis.2024.103335_bb0290) 1996; 29
Sato (10.1016/j.cis.2024.103335_bb0450) 2000; 33
Buscall (10.1016/j.cis.2024.103335_bb0815) 1988; 84
Agrawal (10.1016/j.cis.2024.103335_bb0380) 1979; 12
de Rosa (10.1016/j.cis.2024.103335_bb0345) 1997; 1997
Fabbian (10.1016/j.cis.2024.103335_bb0960) 1999; 60
Herrmann (10.1016/j.cis.2024.103335_bb0235) 1981; 44
Verduin (10.1016/j.cis.2024.103335_bb0825) 1995; 72
Tokita (10.1016/j.cis.2024.103335_bb0610) 1985; 83
Poon (10.1016/j.cis.2024.103335_bb0100) 2004; 29
Adolf (10.1016/j.cis.2024.103335_bb0280) 1990; 23
Day (10.1016/j.cis.2024.103335_bb0515) 1986; 56
Vicsek (10.1016/j.cis.2024.103335_bb0175) 1981; 14
Meakin (10.1016/j.cis.2024.103335_bb0705) 1983; 27
Weitz (10.1016/j.cis.2024.103335_bb0765) 1984; 52
Devreux (10.1016/j.cis.2024.103335_bb0615) 1993; 47
Lois (10.1016/j.cis.2024.103335_bb0900) 2008; 100
Haw (10.1016/j.cis.2024.103335_bb0885) 1995; 62
Valadez-Perez (10.1016/j.cis.2024.103335_bb0075) 2013; 88
Takahashi (10.1016/j.cis.2024.103335_bb0360) 1994; 101
Li (10.1016/j.cis.2024.103335_bb0430) 1997; 30
Eloundou (10.1016/j.cis.2024.103335_bb0295) 1996; 29
Deptuck (10.1016/j.cis.2024.103335_bb0595) 1985; 54
Negi (10.1016/j.cis.2024.103335_bb0685) 2010; 90
Arbabi (10.1016/j.cis.2024.103335_bb0500) 1993; 47
Gawlinsky (10.1016/j.cis.2024.103335_bb0180) 1981; 14
Colby (10.1016/j.cis.2024.103335_bb0355) 1993; 48
Jullien (10.1016/j.cis.2024.103335_bb0720) 1984; 17
Sahimi (10.1016/j.cis.2024.103335_bb0265) 1985; 32
Stockmayer (10.1016/j.cis.2024.103335_bb0195) 1943; 11
Vrij (10.1016/j.cis.2024.103335_bb0090) 1976; 48
Feng (10.1016/j.cis.2024.103335_bb0560) 1985; 31
Kim (10.1016/j.cis.2024.103335_bb0080) 2013; 110
Antonietti (10.1016/j.cis.2024.103335_bb0335) 1989; 22
Thorpe (10.1016/j.cis.2024.103335_bb0625) 1985; 76
de Groot (10.1016/j.cis.2024.103335_bb0820) 1992; 1
Garboczi (10.1016/j.cis.2024.103335_bb0530) 1985; 31
Cao (10.1016/j.cis.2024.103335_bb0830) 2010; 6
Kolb (10.1016/j.cis.2024.103335_bb0715) 1984; 45
Fabbian (10.1016/j.cis.2024.103335_bb0955) 1999; 59
Meakin (10.1016/j.cis.2024.103335_bb0755) 1992; 46
Carpineti (10.1016/j.cis.2024.103335_bb0860) 1993; 70
Collin (10.1016/j.cis.2024.103335_bb0140) 2013; 9
Roux (10.1016/j.cis.2024.103335_bb0575) 1986; 19
Shih (10.1016/j.cis.2024.103335_bb0870) 1990; 42
Durand (10.1016/j.cis.2024.103335_bb0325) 1987; 3
Trappe (10.1016/j.cis.2024.103335_bb0120) 2000; 85
Alexander (10.1016/j.cis.2024.103335_bb0270) 1984; 45
Stauffer (10.1016/j.cis.2024.103335_bb0020) 1985
Fuchs (10.1016/j.cis.2024.103335_bb0455) 1998; 5
Farago (10.1016/j.cis.2024.103335_bb0650) 2000; 85
Frey (10.1016/j.cis.2024.103335_bb0465) 1996; 34
Weitz (10.1016/j.cis.2024.103335_bb0775) 1985; 54
Feng (10.1016/j.cis.2024.103335_bb0555) 1984; 30
Chen (10.1016/j.cis.2024.103335_bb0050) 1991; 141
Guenet (10.1016/j.cis.2024.103335_bb0485) 2008
Poon (10.1016/j.cis.2024.103335_bb0095) 2002; 14
Meakin (10.1016/j.cis.2024.103335_bb0745) 1988; 38
Martin (10.1016/j.cis.2024.103335_bb0835) 1986; 33
Zaccarelli (10.1016/j.cis.2024.103335_bb1030) 2008; 20
Rubinstein (10.1016/j.cis.2024.103335_bb0010) 2003
Herzhaft (10.1016/j.cis.2024.103335_bb0925) 2005; 263
Martin (10.1016/j.cis.2024.103335_bb0400) 1990; 40
Grant (10.1016/j.cis.2024.103335_bb0055) 1993; 47
Ciamarra (10.1016/j.cis.2024.103335_bb0910) 2010; 6
Guenet (10.1016/j.cis.2024.103335_bb1040) 2016
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Thorpe (10.1016/j.cis.2024.103335_bb0545) 1987; 35
Stauffer (10.1016/j.cis.2024.103335_bb0015) 1982; 44
Aoki (10.1016/j.cis.2024.103335_bb0435) 1998; 31
Jullien (10.1016/j.cis.2024.103335_bb0760) 1984; 45
Kantor (10.1016/j.cis.2024.103335_bb0550) 1984; 52
de Gennes (10.1016/j.cis.2024.103335_bb0215) 1979; 40
de Gennes (10.1016/j.cis.2024.103335_bb0210) 1976; 37
Stauffer (10.1016/j.cis.2024.103335_bb0205) 1976; 2
Vicsek (10.1016/j.cis.2024.103335_bb0710) 1984; 52
Zabolitzky (10.1016/j.cis.2024.103335_bb0255) 1984; 30
Michon (10.1016/j.cis.2024.103335_bb0470) 1993; 32
Hodgson (10.1016/j.cis.2024.103335_bb0405) 1990; 23
Feng (10.1016/j.cis.2024.103335_bb0490) 1984; 52
Meakin (10.1016/j.cis.2024.103335_bb0735) 1985; 31
Rogez (10.1016/j.cis.2024.103335_bb0155) 2018; 14
Herrmann (10.1016/j.cis.2024.103335_bb0250) 1984; 30
Eberle (10.1016/j.cis.2024.103335_bb0070) 2012; 28
Winter (10.1016/j.cis.2024.103335_bb0320) 1988; 21
de Hoog (10.1016/j.cis.2024.103335_bb1005) 2001; 64
Allain (10.1016/j.cis.2024.103335_bb0220) 1987; 20
Eckert (10.1016/j.cis.2024.103335_bb0975) 2002; 89
Koumakis (10.1016/j.cis.2024.103335_bb0995) 2011; 7
Adam (10.1016/j.cis.2024.103335_bb0025) 1996
de Gennes (10.1016/j.cis.2024.103335_bb0005) 1979
Flory (10.1016/j.cis.2024.103335_bb0185) 1941; 63
Won (10.1016/j.cis.2024.103335_bb0135) 2005; 21
Sahimi (10.1016/j.cis.2024.103335_bb0570) 1986; 19
Bergman (10.1016/j.cis.2024.103335_bb0565) 1985; 31
Zabolitzky (10.1016/j.cis.2024.103335_bb0580) 1986; 44
Pusey (10.1016/j.cis.2024.103335_bb0035) 1986; 320
Bolle (10.1016/j.cis.2024.103335_bb0850) 1987; 35
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Snippet This paper concerns the viscoelastic properties and the resulting structure of colloidal systems with short-range attractions in the regime where the volume...
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SubjectTerms Cluster fluids
Colloids
DLCA
Gels
Jammed systems
Percolation
RDLCA
RLCA
Title Viscoelastic properties of colloidal systems with attractive solid particles at low concentration: A review, new results and interpretations
URI https://dx.doi.org/10.1016/j.cis.2024.103335
https://www.ncbi.nlm.nih.gov/pubmed/39541869
https://www.proquest.com/docview/3128826890
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