[1] MezgerT. G.The rheology handbook.Hannover: Vincentz Network GmbH and Co KG 2006 [2] Mason T G. Estimating the viscoelastic moduli of complex fluids using the generalized Stokes-Einstein equation. RheologicaActa, 2000,39(4):371-378 [3] Gardel M L, Valentine M T, Weitz, D A. Microrheology. In K. S. Breuer (Ed.), Microscale diagnostic techniques.Heidelberg: Springer Berlin, 2005, pp. 1-49 [4] Squires T M, Mason T G.Fluid mechanics of microrheology. Annual Review of Fluid Mechanics, 2010, 42(1):413-438 [5] Chaikin P. M., Lubensky T. C.Principles of condensed matter physics. England: Cambridge University Press,2000 [6] Wan A W N S, Ayop S K, Riyanto S. The potential of optical tweezers (OT) for viscoelastivity measurement of nanocellulose solution.JurnalTeknologi, 2015, 74(8):45-48 [7] Treesinchai S, Puttipipatkhachorn S, Pitaksuteepong T, Sungthongjeen S. Evaluation of curcuminoids effervescent floating tablets. Advanced Materials Research, 2015, 1060:25-28 [8] Pääkkö M, Ankerfors M, Kosonen H, Nykänen A, Ahola S, Österberg M, Ruokolainen J, Laine J, Larsson PT, Ikkala O, Lindström T. Enzymatic hydrolysis combined with mechanical shearing and high-pressure homogenization for nanoscale cellulose fibrils and strong gels. Biomacromolecules, 2007, 8(6):1934-1941 [9] Tatsumi D, Ishioka S, Matsumoto T.Effect of fiber concentration and axial ratio on the rheological properties of cellulose fiber suspensions.Journal of Society of Rheology, 2002, 30(1):27-32 [10] Laka M, ChernyavskayaS.Obtaining microcrystalline cellulose from softwood and hardwood pulp.BioResources, 2007, 2(4):583-589 [11]Franck A.Understanding rheology of thermoplastic polymers. New Castle: TA Instruments, 2004 [12]Ubbink J, Burbidge A, MezzengaR.Food structure and functionality: A soft matter perspective. Soft Matter, 2008, 4(8):1569-1581 [13] Chauve G, Bras J.Chapter 14: Industrial point of view of nanocellulose materials and their possible applications. In K. Oksman, A. P. Mathew, A. Bismarck, O. Rojas, &M. Sain (Eds.), Handbook of green materials: Processing technologies, properties and applications. Singapore: World Scientific, 2014, pp. 233-252 [14] Martin D S, Forstner M B, Käs J A.Apparent subdiffusion inherent to single particle tracking. Biophysical Journal, 2002, 83(4):2109-2117 [15] Metzler R, KlafterJ.The random walk’s guide to anomalous diffusion: A fractional dynamics approach.Physics Reports, 2000, 339(1):1-77 [16] Brown D, Cox A J.Innovative uses of video analysis. The Physics Teacher, 2009, 47(3):145-150 [17]Carter B C, Shubeita G T, Gross S P.Tracking single particles: A user-friendly quantitative evaluation. Physical Biology, 2005, 2(1):60-72 [18] Ma P C, Siddiqui N A, Marom G, Kim J K. Dispersion and functionalization of carbon nanotubes for polymer-based nanocomposites: A review. Composites Part A: Applied Science and Manufacturing, 2010, 41(10):1345-1367 [19] Wehrman M D, Lindberg S, Schultz K M. Quantifying the dynamic transition of hydrogenated castor oil gels measured via multiple particle tracking microrheology. Soft Matter, 2016, 12(30):6463-6472 [20] Jia D, Hamilton J, Zaman L M,Goonewardene A. The time, size, viscosity, and temperature dependence of the Brownian motion of polystyrene microspheres. American Journal of Physics, 2007, 75(2):111-115 [21] Subramanya G, Ananthamurthy S. Microrheology of nonmulberry silk varieties by optical tweezer and video microscopy based techniques. 2011.https://arxiv.org/ftp/arxiv/papers/1102/1102.3035.pdf. [22] Armstrong M J, Beris A N, Rogers S A, Wagner N. Dynamic shear rheology of a thixotropic suspension: Comparison of an improved structure-based model with large amplitude oscillatory shear experiments. Journal of Rheology, 2016, 60(3): 433-450