Agarwal U P, Kawai N. 2005. "Self-absorption" phenomenon in near-infrared Fourier transform Raman spectroscopy of cellulosic and lignocellulosic materials. Applied Spectroscopy, 59(3):385-388. Agarwal U P. 2006. Raman imaging to investigate ultrastructure and composition of plant cell walls:distribution of lignin and cellulose in black spruce wood (Picea mariana). Planta, 224(5):1141-1153. Araujo C D, MacKay A L, Hailey J R T,et al. 1992. Proton magnetic resonance techniques for characterization of water in wood:application to white spruce. Wood Science and Technology, 26(2):101-113. Azzouz T, Puigdoménech A, Aragay M,et al. 2003. Comparison between different data pre-treatment methods in the analysis of forage samples using near-infrared diffuse reflectance spectroscopy and partial least-squares multivariate calibration method. Analytica Chimica Acta, 484(1):121-134. Berthold J, Rinaudo M, Salmeń L. 1996. Association of water to polar groups:estimations by an adsorption model for ligno-cellulosic materials. Colloids and Surfaces A Physicochemical and Engineering Aspects, 112(112):117-129. Berthold J, Olsson R J O, Salmén L. 1998. Watersorption to hydroxyl and carboxylic acid groups in carboxymethylcellulose (CMC) studied with NIR-spectroscopy. Cellulose, 5(4):281-298. Brownstein K R. 1980. Diffusion as an explanation of observed NMR behavior of water absorbed on wood. Journal of Magnetic Resonance, 40(3):505-510. Carey D M, Korenowski G M. 1998. Measurement of the Raman spectrum of liquid water. Journal of Chemical Physics, 108(7):2669-2675. Casieri C, Senni L, Romagnoli M,et al. 2004. Determination of moisture fraction in wood by mobile NMR device. Journal of Magnetic Resonance, 171(2):364-372. Célino A, Goncalves O, Jacquemin F,et al. 2014. Qualitative and quantitative assessment of water sorption in natural fibres using ATR-FTIR spectroscopy. Carbohydrate Polymers, 101:163-170. Chen Y, Peng B, Wang B. 2007. Ramanspectra and temperature-dependent Raman scattering of silicon nanowires. The Journal of Physical Chemistry C, 111(16):5855-5858. Davis J R, Ilic J, Wells P. 1993. Moisture content in drying wood using direct scanning gamma-ray densitometry. Wood and Fiber Science, 25(2):153-162. Derome D, Griffa M, Koebel M,et al. 2011. Hysteretic swelling of wood at cellular scale probed by phase-contrast X-ray tomography. Journal of Structural Biology, 173(1):180-190. Dvinskikh S V, Henriksson M, Berglund L A,et al. 2011. A multinuclear magnetic resonance imaging (MRI) study of wood with adsorbed water:estimating bound water concentration and local wood density. Holzforschung, 65(1):103-107. Fromm J H, Sautter I, Matthies D,et al. 2001. Xylem water content and wood density in spruce and oak trees detected by high-resolution computed tomography. Plant Physiology, 127(2):416-425. Fredriksson M, Thygesen L G. 2017. The states of water in Norway spruce (Picea abies (L.) Karst.) studied by low-field nuclear magnetic resonance (LFNMR) relaxometry:assignment of free-water populations based on quantitative wood anatomy. Holzforschung, 71(1):77-90. Froix M F, Nelson R. 1975. Theinteraction of water with cellulose from nuclear magnetic resonance relaxation times. Macromolecules, 8(6):726-730. Guindos P. 2014. Numerical modeling of timber with knots:the progressively damaged lattice approach vs. the equivalent damaged continuum. Holzforschung, 68(5):599-613. Guo X, Qing Y, Wu Y,et al. 2016. Molecular association of adsorbed water with lignocellulosic materials examined by micro-FTIR spectroscopy. International Journal of Biological Macromolecules, 83:117-125. Guo X, Wu Y, Yan N. 2017.Characterizing spatial distribution of the adsorbed water in wood cell wall of Ginkgo biloba L. by μ-FTIR and confocal Raman spectroscopy. Holzforschung, DOI:10.1515/hf-2016-0145. Haxaire K, Maréchal Y, Milas M,et al. 2003. Hydration of polysaccharide hyaluronan observed by IR spectrometry. I. preliminary experiments and band assignments. Biopolymers, 72(1):10-20. Heraud P, Beardall J, Mcnaughton D,et al. 2007. In vivo prediction of the nutrient status of individual microalgal cells using Raman microspectroscopy. Fems Microbiology Letters, 275(1):24-30. Hofstetter K, Hinterstoisser B, Salmén L. 2006. Moisture uptake in native cellulose-the roles of different hydrogen bonds:a dynamic FT-IR study using deuterium exchange. Cellulose, 13(2):131-145. Hopkins R J, Mitchem L, Ward A D,et al. 2004. Control and characterisation of a single aerosol droplet in a single-beam gradient-force optical trap. Physical Chemistry Chemical Physics, 6(21):4924-4927. Hozjan T, Svensson S. 2011. Theoretical analysis of moisture transport in wood as an open porous hygroscopic material. Holzforschung, 65(1):97-102. Islam M N, Khan M A, Alam M K,et al. 2003. Study of water absorption behavior in wood plastic composites by using neutron radiography techniques. Polymer-Plastics Technology and Engineering, 42(5):925-934. Javed M A, Kekkonen P M, Ahola S,et al. 2015. Magnetic resonance imaging study of water absorption in thermally modified pine wood. Holzforschung, 69(7):899-907. Kekkonen P M, Ylisassi A, Telkki V. 2014. Absorption ofwater in thermally modified pine wood as studied by nuclear magnetic resonance. Journal of Physical Chemistry C, 118(4):2146-2153. Kim C, Oh J, Hong J,et al. 2015. Dual-energy X-ray absorptiometry with digital radiograph for evaluating moisture content of green wood. Wood Science and Technology, 49(4):713-723. Koumbi-Mounanga T, Groves K, Leblon B, et al. 2015. Estimation of moisture content of trembling aspen (Populus tremuloides Michx.) strands by near infrared spectroscopy (NIRS). European Journal of Wood and Wood Products, 73(1):43-50. Lamason C, Macmillan B, Balcom B J, et al. 2014. Examination of water phase transitions in black spruce by magnetic resonance and nagnetic resonance imaging. Wood and Fiber Science, 46(4):423-436. Lanvermann C, Sanabria S J, Mannes D,et al. 2013. Combination of neutron imaging (NI) and digital image correlation (DIC) to determine intra-ring moisture variation in Norway spruce. Holzforschung, 68(1):151-156. Laity P R, Hay J N. 2000. Measurement ofwater Diffusion through cellophane using attenuated total reflectance-fourier transform infrared spectroscopy. Cellulose, 7(4):387-397. Li X, Wang F, Lu P,et al. 2006. Confocal Raman observation of the efflorescence/deliquescence processes of individual NaNO3 particles on quartz. The Journal of Physical Chemistry B, 110(49):24993-24998. Mannes D, Sonderegger W, Hering S,et al. 2009. Non-destructive determination and quantification of diffusion processes in wood by means of neutron imaging. Holzforschung, 63(5):589-596. Mannes D, Marone F, Lehmann E,et al. 2010. Application areas of synchrotron radiation tomographic microscopy for wood research. Wood Science and Technology, 44(1):67-84. Menon R S, Mackay A L, Hailey J R T,et al. 1987. An NMR determination of the physiological water distribution in wood during drying. Journal of Applied Polymer Science, 33(4):1141-1155. Merela M,Oven P, Sepe A, et al. 2005. Three dimensional in vivo magnetic resonance microscopy of beech (Fagus sylvatica L.) wood. Magnetic Resonance Materials in Physics, Biology and Medicine, 18(4):171-174. Merela M, Oven P, Serša I,et al. 2008. A single point NMR method for an instantaneous determination of the moisture content of wood. Holzforschung, 63(3):348-351. Mitchem L, Buajarern J, Hopkins R J,et al. 2006. Spectroscopy of growing and evaporating water droplets: exploring the variation in equilibrium droplet size with relative humidity. The Journal of Physical Chemistry A, 110(26):8116-8125. Olek W, Majka J, Czajkowski L. 2013. Sorption isotherms of thermally modified wood. Holzforschung, 67(2):183-191. Olsson A, Salmén L. 2004. The association of water to cellulose and hemicellulose in paper examined by FTIR spectroscopy. Carbohydrate Research, 339(4):813-818. Oven P, Merela M, Mikac U,et al. 2008. 3D magnetic resonance microscopy of a wounded beech branch. Holzforschung, 62(3):322-328. Passarini L, Malveau C, Hernández R E. 2014. Water state study of wood structure of four hardwoods below fiber saturation point with nuclear magnetic resonance. Wood and Fiber Science, 46(4):480-488. Passarini L, Malveau C, Hernández R E. 2015. Distribution of the equilibrium moisture content in four hardwoods below fiber saturation point with magnetic resonance microimaging. Wood Science and Technology, 49(6):1251-1268. Rosenkilde A, Glover P,et al. 2002. High resolution measurement of the surface layer moisture content during drying of wood using a novel magnetic resonance imaging technique. Holzforschung, 56(3):312-317. Scherer J R, Bailey G F, Kint S,et al. 1985. Water in polymer membranes. 4. Raman scattering from cellulose acetate films. Journal of Physical Chemistry, 89(2):312-319. Sedighi-Gilani M, Griffa M, Mannes D, et al. 2012. Visualization and quantification of liquid water transport in softwood by means of neutron radiography. International Journal of Heat and Mass Transfer, 55(21/22):6211-6221. Sehwanninger M, Hinterstoisser N, Gierlinger N. 2004.Application of fourier transform near infrared spectroscopy(FT-NIR)to thermally modified wood. Holz als Roh-und Werkstoff, 62(6):483-484. Shou J J, Wang F, Zeng G,et al. 2011. Adsorption and desorption kinetics of water in lysozyme crystal investigated by confocal Raman spectroscopy. Journal of Physical Chemistry B, 115(13):3708-3712. Tanaka T. 2015. Improved method based on dual-energy X-ray absorptiometry for nondestructive evaluation of solid wood moisture content. Holzforschung, 69(1):1133-1136. Trtik P, Dual J, Keunecke D,et al. 2007. 3D imaging of microstructure of spruce wood. Journal of Structural Biology, 159(1):46-55. Tsuchikawa S, Siesler H W. 2003. Near-infrared spectroscopic monitoring of the diffusion process of deuterium-labeled molecules in wood. Part I:softwood. Applied Spectroscopy, 57(6):667-674. Weise U, Maloney T, Paulapuro H. 1996. Quantification of water in different states of interaction with wood pulp fibres. Cellulose, 3(1):189-202. Zhang M, Wang X, Gazo R. 2013. Water states in yellow poplar during drying studied by time-domain nuclear magnetic resonance. Wood and Fiber Science, 45(4):423-428. |