01891nas a2200181 4500008004100000245009800041210006900139260001600208300001200224520131400236653001901550100001701569700002101586700002201607700002101629700001901650856004001669 2022 eng d00aStability of the Fungal Pigment from Scytalidium cuboideum Carried in Food-Grade Natural Oils0 aStability of the Fungal Pigment from Scytalidium cuboideum Carri aBaselc2022 a276-2933 aWood-staining fungal pigments have shown potential use as colorants for wood and textiles, with organic solvents as the pigment carrier. Natural oils have been suggested as an environmentally friendly and more available carrier; however, oils promoted color degradation. The current study examined the mechanism of said degradation and tested therapeutic and food-grade oils (instead of finishing oils) for their potential to carry draconin red, the pigment from Scytalidium cuboideum, without color loss over time. FTIR analysis from finishing oils indicated that oxidation was not likely the cause of color loss as the pigment could not be distinguished from the oils in the IR spectra. SEM was employed to determine if crystal degradation was contributing to color loss and indicated, surprisingly, that the crystals of draconin red formed rather than degraded over time. This suggested crystal breakdown was also not likely the cause of color loss. The pigment did not show degradation in hemp oil, flaxseed oil, and cold-pressed linseed oil when treated with β-carotene. Further in- depth chemical studies are needed to determine the mechanism of color loss in pigmented natural oils; however, food-grade oils appear to be a promising alternative to carry draconin red, without degradation of the color.10aDesign Program1 aHinsch, Eric1 aGutierrez, Sarah1 aVan Court, R., C.1 aChen, Hsiou-Lien1 aRobinson, Sara uhttps:// doi.org/10.3390/jof803027601952nas a2200205 4500008004100000245011900041210006900160260002300229300000900252520130400261653001901565100001101584700001501595700001801610700002101628700001701649700001601666700001701682856004701699 2021 eng d00aInkjet Printing and In-situ Crystallization of Biopigments for Eco-Friendly and Energy-Efficient Fabric Coloration0 aInkjet Printing and Insitu Crystallization of Biopigments for Ec aNew York, NYc2021 a1-133 aCurrent methods of fabric dyeing have a significant negative effect on the environment via toxic effluent emissions, high water usage, and high energy consumption. We demonstrate, for the first time, low-energy inkjet printing of an ecofriendly and biodegradable pigment derived from widely available spalting fungi with synthesis by-products that are fully biodegradable. Vivid and stable coloration is achieved on polyester and cotton using benign acetone-based and ethanol-based biopigment inks, with no liquid effluent or runoff, and without any synthetic dyes or mordants. We investigate the influence of fabric type, solvent type, and the number of printing passes on the color type, intensity, and uniformity, pigment crystallization, and environmental stability. Greater spatial definition of the printed pigment in inkjet printing effects greater crystallization and more vivid and uniform coloration as compared to drop-casting, the primary method used till date to color fabrics with such fungal biopigments. pH-driven interactions between the fabric, solvent, and biopigment cause solvent-driven changes in color type (from bluish to reddish) and fabric-governed changes in color intensity. The impact of our findings on minimizing the environmental impact of fabric dyeing is discussed.10aDesign Program1 aHe, Y.1 aHwang, H-J1 aGutierrez, M.1 aChen, Hsiou-Lien1 aRobinson, S.1 aChang, C.H.1 aMalhotra, R. uhttps://doi.org/10.1007/s40684-021-00360-500552nas a2200181 4500008004100000245007300041210006900114260002200183300000700205490000700212653001900219100001700238700001800255700002000273700002100293700001700314856003900331 2020 eng d00aOil-Based Fungal Pigment from Scytalidium cuboideum as a Textile Dye0 aOilBased Fungal Pigment from Scytalidium cuboideum as a Textile aSwitzerlandc2020 a530 v6210aDesign Program1 aPalomino, M.1 aGutierrez, S.1 aVan-Court, R.C.1 aChen, Hsiou-Lien1 aRobinson, S. uhttps://doi.org/10.3390/jof602005300711nas a2200229 4500008004100000245011400041210006900155260000900224300000800233490000600241653001900247100002800266700001500294700001200309700001700321700001800338700002000356700002100376700002100397700001900418856004400437 2019 eng d00aFeasibility and Surface Evaluation of the Pigment from Scytalidium cuboideum for Ink-jet Printing on Textiles0 aFeasibility and Surface Evaluation of the Pigment from Scytalidi c2019 a2660 v910aDesign Program1 aGutierrez, Sarath, Vega1 aHe, Yujuan1 aCao, Yu1 aStone, Derek1 aWalsh, Zielle1 aMalhotra, Rajiv1 aChen, Hsiou-Lien1 aChang, Chih-Hung1 aRobinson, Seri uhttps://doi.org/10.3390/coatings904026600525nas a2200121 4500008004100000245010000041210006900141260000900210653001900219100001900238700002100257856012500278 2019 eng d00aMotivations and level of internalization of Muslim women wearing the hijab in a Western society0 aMotivations and level of internalization of Muslim women wearing c201910aDesign Program1 aMaqsood, Elham1 aChen, Hsiou-Lien u/biblio/motivations-and-level-internalization-muslim-women-wearing-hijab-western-society00494nas a2200145 4500008004100000245009100041210006900132260000900201490000600210653001900216100002100235700001600256700002100272856005500293 2017 eng d00aThe Effect of Textiles on Clothing Physiological Comfort While Backpacking in the Cold0 aEffect of Textiles on Clothing Physiological Comfort While Backp c20170 v210aDesign Program1 aChen, Hsiou-Lien1 aBaker, Lynn1 aCluver, Brigitte uhttp://medcraveonline.com/JTEFT/JTEFT-02-00044.php00615nas a2200157 4500008004100000245015500041210006900196260000900265490000600274653001900280653001400299100001900313700001600332700002100348856008800369 2017 eng d00aEffects of Green Self-Identity and Cognitive and Affective Involvement on Patronage Intention in Eco-Friendly Apparel Consumption: A Gender Comparison0 aEffects of Green SelfIdentity and Cognitive and Affective Involv c20170 v910aDesign Program10aMarketing1 aTung, Tsun-Yin1 aKoenig, Hal1 aChen, Hsiou-Lien uhttps://susy.mdpi.com/user/manuscripts/review_info/a93e23e2230a2e241bcbbe93b410b90100644nas a2200145 4500008004100000245013400041210006900175260003200244653001900276653001400295100001900309700001600328700002100344856013300365 2017 eng d00aEffects pf Green Self-Identity and Gender Influences on Consumers' Involvement and Patronage Intention in Eco-Apparel Consumption0 aEffects pf Green SelfIdentity and Gender Influences on Consumers aSan Diego, Californiac201710aDesign Program10aMarketing1 aTung, Tsun-Yin1 aKoenig, Hal1 aChen, Hsiou-Lien u/biblio/effects-pf-green-self-identity-and-gender-influences-consumers-involvement-and-patronage00477nas a2200121 4500008004100000245006500041210005900106260003400165653001900199100002100218700001900239856009700258 2017 eng d00aThe Hijab and Muslim Women's Well-being in a Western Society0 aHijab and Muslim Womens Wellbeing in a Western Society aSt. Petersburg, Floridac201710aDesign Program1 aChen, Hsiou-Lien1 aMaqsood, Elham u/biblio/hijab-and-muslim-womens-well-being-western-society-000477nas a2200121 4500008004100000245006500041210005900106260003600165653001900201100001900220700002100239856009500260 2017 eng d00aThe Hijab and Muslim Women's Well-being in a Western Society0 aHijab and Muslim Womens Wellbeing in a Western Society aSt. Petersburger, Floridac201710aDesign Program1 aMaqsood, Elham1 aChen, Hsiou-Lien u/biblio/hijab-and-muslim-womens-well-being-western-society00505nas a2200157 4500008004100000245007200041210006900113260000900182490000600191653001900197100002100216700002300237700002000260700001900280856004800299 2017 eng d00aWood-rotting fungal pigments as colorants in oil-based textile dyes0 aWoodrotting fungal pigments as colorants in oilbased textile dye c20170 v710aDesign Program1 aChen, Hsiou-Lien1 aPalomino, Mardonio1 aGutierrez, Vega1 aRobinson, Sara uhttp://www.mdpi.com/2079-6412/7/10/152/html01570nas a2200145 4500008004100000245009500041210006900136260002000205520100200225653001901227100001901246700002101265700002101286856011701307 2016 eng d00aThe Modification of Muslim Women’s Hijab to Meet Modern Life Styles in a Western Society0 aModification of Muslim Women s Hijab to Meet Modern Life Styles aVancouverc20163 aWomen residing in non‑Muslim countries have indicated that they have experienced negative feedback from others due to their use of the hijab (Ruby, 2006; El-Ghobashy, 2011). The impact of Muslim women’s experiences on their use of the hijab has received little attention from researchers (Tarlo, 2010). Therefore, the purpose of this research was to investigate why and how a group of Muslim women developed and adopted a variation of the hijab, the Multipurpose Modern Hijab (MMH), to wear while living in the United States. Results show that participants developed a hijab alternative that they believe retains its ability to communicate their religious beliefs and commitment to Allah, but also is easier to put on and keep on, more comfortable, and more accepted by the non-Muslim community. One major challenge participants noted is finding a single fabric that meets their needs in terms of aesthetics and comfort; there is a need for fabrics that are designed specially for hijab users.10aDesign Program1 aMaqsood, Elham1 aCluver, Brigitte1 aChen, Hsiou-Lien u/biblio/modification-muslim-womens-hijab-meet-modern-life-styles-western-society01620nas a2200169 4500008004100000245010700041210006900148260000900217490000600226520108800232653001901320100002101339700001401360700001501374700001701389856004401406 2015 eng d00aColorfastness of extracted wood-staining fungal pigments on fabrics - a new potential for textile dyes0 aColorfastness of extracted woodstaining fungal pigments on fabri c20150 v93 aIn this study, pigments In this study, pigments from three species of pigmenting fungi, Chlorociboria aeruginosa (xylindein, green), Scytalidium cuboideum (draconin red, red), and Scytalidium ganodermophtherum (yellow), were used to dye multi-fabric test strips. Tests for color stability and tests for colorfastness to washing with and without bleach, and to perspiration, were conducted. Color readings were taken using a colorimeter, and color differences were statistically determined based on overall color change as calculated using the CIE L*a*b* color space. The results indicated that all three pigments were stable over time, indicating that these pigments can be used for fabric dyeing, eliminating the need for additional chemicals or heat as is required for traditional fabric dyes. Xylindein and draconin red exhibited good colorfastness to washing, and xylindein good colorfastness to perspiration. These results indicate that xylindein shows good potential as a dye for garment fabrics, and draconin red shows good potential as a dye for second-layer garment fabrics.10aDesign Program1 aChen, Hsiou-Lien1 aWeber, G.1 aHinsch, E.1 aRobinson, S. uhttp://ojs.cnr.ncsu.edu/index.php/JTATM01740nas a2200193 4500008004100000245016400041210006900205260000900274300001200283490000800295520101700303653001901320100002101339700001401360700001501374700001601389700001701405856012401422 2014 eng d00aPigments extracted from the wood-staining fungi Chlorociboria aeruginosa, Scytalidium cuboideum and S. ganodermophthorum show potential for use as textile dyes0 aPigments extracted from the woodstaining fungi Chlorociboria aer c2014 a445-4520 v1303 aA growing interest in the use of naturally produced pigments for textile dyeing has led to increased efforts towards the identification of such pigments that are less toxic, more sustainable, and more stable over time than currently used synthetic compounds. This work utilised various concentrations of green, red, and yellow pigments extracted with dichloromethane from the wood-staining fungi Chlorociboria aeruginosa, Scytalidium cuboideum, and S. ganodermophthorum, respectively, for the effective dyeing of bleached cotton, spun polyamide (nylon 6.6), spun polyester (Dacron 54), spun polyacrylic, and worsted wool. All three pigments utilised in this study show significant potential for use as textile dyes. Colour changes suggested that drip application methods were superior to submersion using dichloromethane. Colour changes as compared with the untreated fabrics were most significant on polyester, which is likely due to increased levels of polymer swelling in polyester exposed to dichloromethane.10aDesign Program1 aChen, Hsiou-Lien1 aWeber, G.1 aHinsch, E.1 aFreitas, S.1 aRobinson, S. uhttp://onlinelibrary.wiley.com/doi/10.1111/cote.12110/abstract?deniedAccessCustomisedMessage=&userIsAuthenticated=false00531nas a2200121 4500008004100000245009500041210006900136260002400205653001900229100002100248700001900269856012100288 2014 eng d00aThe Saudi Arabian traditional clothes as an inspiration for fashionable and modern designs0 aSaudi Arabian traditional clothes as an inspiration for fashiona aCharlotte, NCc201410aDesign Program1 aChen, Hsiou-Lien1 aMaqsood, Elham u/biblio/saudi-arabian-traditional-clothes-inspiration-fashionable-and-modern-designs00549nas a2200145 4500008004100000245008100041210006900122260000900191490000700200653001900207100002000226700002100246700002100267856011500288 2013 eng d00aConsumer Perceptions Regarding the Limited Lifespan of Fast Fashion Apparel0 aConsumer Perceptions Regarding the Limited Lifespan of Fast Fash c20130 v1710aDesign Program1 aCollett, Miriam1 aCluver, Brigitte1 aChen, Hsiou-Lien u/biblio/consumer-perceptions-regarding-limited-lifespan-fast-fashion-apparel-000552nas a2200133 4500008004100000245009200041210006900133260002200202653001900224100002100243700001600264700002100280856011700301 2013 eng d00aThe effect of textiles on perceived physiological comfort while backpacking in the cold0 aeffect of textiles on perceived physiological comfort while back aNew Orleansc201310aDesign Program1 aChen, Hsiou-Lien1 aBaker, Lynn1 aCluver, Brigitte u/biblio/effect-textiles-perceived-physiological-comfort-while-backpacking-cold-000522nas a2200133 4500008004100000245007100041210006700112260002200179653001900201100002100220700001900241700002500260856010300285 2013 eng d00aThe impacts of different woven fabrics on three draping techniques0 aimpacts of different woven fabrics on three draping techniques aNew Orleansc201310aDesign Program1 aChen, Hsiou-Lien1 aMaqsood, Elham1 aAbdulrahman, Nermeen u/biblio/impacts-different-woven-fabrics-three-draping-techniques-000615nas a2200145 4500008004100000245013600041210006900177260000900246300001200255490000700267653001900274100002100293700002100314856013400335 2010 eng d00aAssessment of Poplar Seed Hair Fibers as a Potential Textile Thermal Insulation Material: Part I - Physical and Chemical Properties0 aAssessment of Poplar Seed Hair Fibers as a Potential Textile The c2010 a255-2620 v2810aDesign Program1 aChen, Hsiou-Lien1 aCluver, Brigitte u/biblio/assessment-poplar-seed-hair-fibers-potential-textile-thermal-insulation-material-part-i-000524nas a2200145 4500008004100000245007000041210006900111260000900180300001400189490000700203653001900210100002100229700002100250856010700271 2010 eng d00aBiodegradation and mildew resistance of naturally colored cottons0 aBiodegradation and mildew resistance of naturally colored cotton c2010 a2188-21940 v8010aDesign Program1 aChen, Hsiou-Lien1 aCluver, Brigitte u/biblio/biodegradation-and-mildew-resistance-naturally-colored-cottons00471nas a2200121 4500008004100000245006000041210006000101260002800161653001900189100002100208700002100229856009900250 2009 eng d00aMicrobiological Resistance of Naturally Colored Cottons0 aMicrobiological Resistance of Naturally Colored Cottons aChicago, Illinoisc200910aDesign Program1 aChen, Hsiou-Lien1 aCluver, Brigitte u/biblio/microbiological-resistance-naturally-colored-cottons-100549nas a2200121 4500008004100000245010100041210006900142260002200211653001900233100002100252700002100273856013300294 2008 eng d00aStudy of Thermal Properties of Military Ballistic Helmets by Thermal Manikin and Human Subjects0 aStudy of Thermal Properties of Military Ballistic Helmets by The aSeattle, WAc200810aDesign Program1 aChen, Hsiou-Lien1 aCluver, Brigitte u/biblio/study-thermal-properties-military-ballistic-helmets-thermal-manikin-and-human-subjects-100511nas a2200121 4500008004100000245008000041210006900121260002600190653001900216100002100235700001400256856011900270 2007 eng d00aThermal Insulation Properties of Military Ballistic Helmet Internal Systems0 aThermal Insulation Properties of Military Ballistic Helmet Inter aLos Angeles, CAc200710aDesign Program1 aChen, Hsiou-Lien1 aCulver, B u/biblio/thermal-insulation-properties-military-ballistic-helmet-internal-systems-000559nas a2200109 4500008004100000245013900041210006900180260002600249653001900275100002100294856013400315 2006 eng d00aAssessment of Physical and Chemical Characteristics of Poplar Seed Hair Fibers as a Potential Bulk Textile Thermal Insulation Material0 aAssessment of Physical and Chemical Characteristics of Poplar Se aSan Antonio, TXc200610aDesign Program1 aChen, Hsiou-Lien u/biblio/assessment-physical-and-chemical-characteristics-poplar-seed-hair-fibers-potential-bulk-000453nas a2200145 4500008004100000245004700041210004700088260000900135300001200144490000700156653001900163100002100182700001800203856008600221 2006 eng d00aEnvironmental Analysis of Textile Products0 aEnvironmental Analysis of Textile Products c2006 a248-2610 v2410aDesign Program1 aChen, Hsiou-Lien1 aBurns, Leslie u/biblio/environmental-analysis-textile-products-000551nas a2200133 4500008004100000245008800041210006900129260002400198653001900222100002100241700002100262700002000283856011400303 2005 eng d00aStudy of the Effect of Laundering on Naturally Colored Cottons by Swelling Reagents0 aStudy of the Effect of Laundering on Naturally Colored Cottons b aAlexandra, VAc200510aDesign Program1 aChen, Hsiou-Lien1 aMoore, Mary, Ann1 aKantor, Natalie u/biblio/study-effect-laundering-naturally-colored-cottons-swelling-reagents-000500nas a2200109 4500008004100000245008900041210006900130260002700199653001900226100002100245856012400266 2004 eng d00aStudy of Naturally Colored Cottons via Surface IR Spectroscopy and Swelling Reagents0 aStudy of Naturally Colored Cottons via Surface IR Spectroscopy a aPortland, 91��c200410aDesign Program1 aChen, Hsiou-Lien u/biblio/study-naturally-colored-cottons-surface-ir-spectroscopy-and-swelling-reagents-000480nas a2200133 4500008004100000245006600041210006600107260000900173300001200182490000700194653001900201100002100220856010500241 2001 eng d00aMicrowave Radiation Decontamination of Mildew Infected Cotton0 aMicrowave Radiation Decontamination of Mildew Infected Cotton c2001 a247-2540 v7110aDesign Program1 aChen, Hsiou-Lien u/biblio/microwave-radiation-decontamination-mildew-infected-cotton-000547nas a2200145 4500008004100000245008500041210006900126260000900195300001400204490000700218653001900225100002100244700001500265856012100280 2000 eng d00aX-Ray Diffractometric Study of Microcrystallite Size of Naturally Colored Cotton0 aXRay Diffractometric Study of Microcrystallite Size of Naturally c2000 a1466-14710 v7610aDesign Program1 aChen, Hsiou-Lien1 aYokochi, A u/biblio/x-ray-diffractometric-study-microcrystallite-size-naturally-colored-cotton-000480nas a2200109 4500008004100000245008100041210006900122260002200191653001900213100002100232856011700253 1999 eng d00aX-Ray Diffractometric Analysis of Microstructure of Naturally Colored Cotton0 aXRay Diffractometric Analysis of Microstructure of Naturally Col aAnaheim, CAc199910aDesign Program1 aChen, Hsiou-Lien u/biblio/x-ray-diffractometric-analysis-microstructure-naturally-colored-cotton-000537nas a2200109 4500008004100000245011600041210006900157260002300226653001900249100002100268856013800289 1999 eng d00aX-Ray Diffractometric Study of the Effects of Laundry on the Microcrystallite Size of Naturally Colored Cottons0 aXRay Diffractometric Study of the Effects of Laundry on the Micr aSanta Fe, NMc199910aDesign Program1 aChen, Hsiou-Lien u/biblio/x-ray-diffractometric-study-effects-laundry-microcrystallite-size-naturally-colored-cottons-000535nas a2200109 4500008004100000245011800041210006900159260002100228653001900249100002100268856013600289 1998 eng d00aMicrowave Disinfestation of Cellulytic Fungi and Effects of Microwave Radiation on Cellulose Fiber Microstructure0 aMicrowave Disinfestation of Cellulytic Fungi and Effects of Micr aDallas, TXc199810aDesign Program1 aChen, Hsiou-Lien u/biblio/microwave-disinfestation-cellulytic-fungi-and-effects-microwave-radiation-cellulose-fiber-000544nas a2200145 4500008004100000245007600041210006900117260000900186300001400195653001900209100002100228700001600249700001800265856011500283 1998 eng d00aPreservation of Archaeological Cellulosic Fibers Through Mineralization0 aPreservation of Archaeological Cellulosic Fibers Through Mineral c1998 a1015-102110aDesign Program1 aChen, Hsiou-Lien1 aJakes, K, A1 aForeman, D, W u/biblio/preservation-archaeological-cellulosic-fibers-through-mineralization-000480nas a2200133 4500008004100000245005600041210005600097260002400153653001900177100002100196700001800217700001600235856009500251 1997 eng d00aLaboratory Simulation of Plant Fiber Mineralization0 aLaboratory Simulation of Plant Fiber Mineralization aKnoxville, TNc199710aDesign Program1 aChen, Hsiou-Lien1 aForeman, D, W1 aJakes, K, A u/biblio/laboratory-simulation-plant-fiber-mineralization-000492nas a2200109 4500008004100000245008000041210006900121260003300190653001900223100002100242856011900263 1996 eng d00aCharacterizing Naturally Colored Cotton Fibers by ATR Infrared Spectroscopy0 aCharacterizing Naturally Colored Cotton Fibers by ATR Infrared S aBanff, Alberta, Canadac199610aDesign Program1 aChen, Hsiou-Lien u/biblio/characterizing-naturally-colored-cotton-fibers-atr-infrared-spectroscopy-000563nas a2200157 4500008004100000245007800041210006900119260000900188300001200197490000700209653001900216100002100235700001600256700001800272856011500290 1996 eng d00aSEM, EDS, and FTIR Examination of Archaeological Mineralized Plant Fibers0 aSEM EDS and FTIR Examination of Archaeological Mineralized Plant c1996 a219-2240 v6410aDesign Program1 aChen, Hsiou-Lien1 aJakes, K, A1 aForeman, D, W u/biblio/sem-eds-and-ftir-examination-archaeological-mineralized-plant-fibers-000545nas a2200133 4500008004100000245008300041210006900124260002200193653001900215100002100234700001800255700001600273856012200289 1995 eng d00aDiffractometric Study of Archaeological Mineralized Plant Fiber Microstructure0 aDiffractometric Study of Archaeological Mineralized Plant Fiber aAnaheim, CAc199510aDesign Program1 aChen, Hsiou-Lien1 aForeman, D, W1 aJakes, K, A u/biblio/diffractometric-study-archaeological-mineralized-plant-fiber-microstructure-000479nas a2200145 4500008004100000245006000041210006000101260000900161300001000170490000700180653001900187100002100206700001500227856009100242 1995 eng d00aExperimental Methods For The Analysis of Dye Desorption0 aExperimental Methods For The Analysis of Dye Desorption c1995 a23-270 v2710aDesign Program1 aChen, Hsiou-Lien1 aNoel, C, J u/biblio/experimental-methods-analysis-dye-desorption-000453nas a2200145 4500008004100000245004900041210004800090260000900138300001200147490000700159653001900166100001300185700002100198856008800219 1994 eng d00aApplication of Recycled Post-Consumer Fibers0 aApplication of Recycled PostConsumer Fibers c1994 a320-3400 v2710aDesign Program1 aChang, Y1 aChen, Hsiou-Lien u/biblio/application-recycled-post-consumer-fibers-000540nas a2200157 4500008004100000245007100041210006900112260000900181300001200190490000700202653001900209100001600228700002100244700001700265856010000282 1993 eng d00aToward the Development of a Classification System for Plant Fibers0 aToward the Development of a Classification System for Plant Fibe c1993 a157-1790 v2010aDesign Program1 aJakes, K, A1 aChen, Hsiou-Lien1 aSibley, L, R u/biblio/toward-development-classification-system-plant-fibers-0