@article{wang_parrillo-chapman_rothenberg_liu_liu_2021, title={Digital Textile Ink-Jet Printing Innovation: Development and Evaluation of Digital Denim Technology}, volume={65}, ISSN={["1943-3522"]}, DOI={10.2352/J.ImagingSci.Technol.2021.65.4.040407}, abstractNote={Abstract This research explored the potential for ink-jet printing to replicate the coloration and finishing techniques of traditional denim fabric and standardized the reproduction and evaluation procedure. Although denim fabric is widely consumed and very popular, one drawback
 to denim is that the finishing and manufacturing processes are energy and water intensive and can cause environmental hazards as well as generation of pollution through water waste, particularly at the finishing stage. Textile ink-jet printing has the potential to replicate some of the coloration
 and finishing techniques of traditional denim fabric without negative environmental impacts. A two-phase research project was conducted. In Phase I (P1), an optimal standard production workflow for digital denim reproduction (including color and finishing effects) was established, and six
 different denim samples were reproduced based on the workflow. In Phase II, an expert visual assessment protocol was developed to evaluate the acceptance of the replicated digital denim. Twelve ink-jet printing, color science, and denim industry experts finished the assessment.}, number={4}, journal={JOURNAL OF IMAGING SCIENCE AND TECHNOLOGY}, author={Wang, Ming and Parrillo-Chapman, Lisa and Rothenberg, Lori and Liu, Yixin and Liu, Jiajun}, year={2021}, month={Jul} }
 @article{eserman_sosef_simao-bianchini_utteridge_barbosa_buril_chatrou_clay_delgado_desquilbet_et al._2020, title={Proposal to change the conserved type of Ipomoea, nom. cons. (Convolvulaceae)}, volume={69}, ISSN={["1996-8175"]}, url={http://dx.doi.org/10.1002/tax.12400}, DOI={10.1002/tax.12400}, abstractNote={(Convolvulaceae) Lauren A. Eserman, Marc S.M. Sosef, Rosângela Simão-Bianchini, Timothy M.A. Utteridge, Juliana C.J. Barbosa, Maria Teresa Buril, LarsW. Chatrou, Keith Clay, Geadelande Delgado, Thibaut E. Desquilbet, Priscila P.A. Ferreira, José R. Grande Allende, Alexis L. Hernández, Guillermo Huerta-Ramos, Robert L. Jarret, Roberta K. Kojima, Sven Landrein, Juliana A.A.M. Lourenço, Ine De Man, Richard E. Miller, Sushant More, André L.C. Moreira, Ithe Mwanga-Mwanga, Stella Nhanala, Mayara Pastore, Fernanda S. Petrongari, Ponprom Pisuttimarn, Pimwadee Pornpongrungrueng, Joanna Rifkin, Francisco D.S. Santos, Vinod B. Shimpale, Simone S. Silva, John R. Stinchcombe, Paweena Traiperm, Liziane V. Vasconcelos, Ming Li Wang, Arthur Villordon, Jun Yang, G. Craig Yencho, Bettina Heider & Ana Rita G. Simões}, number={6}, journal={TAXON}, author={Eserman, Lauren A. and Sosef, Marc S. M. and Simao-Bianchini, Rosangela and Utteridge, Timothy M. A. and Barbosa, Juliana C. J. and Buril, Maria Teresa and Chatrou, Lars W. and Clay, Keith and Delgado, Geadelande and Desquilbet, Thibaut E. and et al.}, year={2020}, month={Dec}, pages={1369–1371} }
 @article{wang_chapman_moore_suh_2019, title={Replication of Screen-Printing Fabric via Ink-jet Textile Printing}, volume={63}, ISSN={["1943-3522"]}, DOI={10.2352/J.ImagingSci.Technol.2019.63.4.040402}, abstractNote={Digital textile printing (DTP) is fast, flexible, and relatively inexpensive for sample printing, and can be applied quickly in response to consumer demand. The aim of this two-stage research was to analyze the potential of DTP to replace traditional screen printing for a specific textile product. In Stage One, an optimal DTP workflow was established. The workflow included determination of the colorant and substrate combination, color calibration, CAD file, and the necessity of pretreatment. In Stage Two, a visual assessment instrument and protocol were established to evaluate the acceptance of replicated ink-jet printed fabric. The visual assessment and protocol were designed to evaluate the acceptance of the ink-jet printed sample to fully replicate the screen-printed sample via seven measured aspects. These seven aspects include: perceived color difference, lightness difference, overall color, scale, line quality, visual texture, and overall appearance. Data gathered from the visual assessment was then analyzed and compared using SPSS statistics software. The results indicate that DTP demonstrates a significant potential alternative for traditional screen printing.}, number={4}, journal={JOURNAL OF IMAGING SCIENCE AND TECHNOLOGY}, author={Wang, Ming and Chapman, Lisa and Moore, Marguerite and Suh, Minyoung}, year={2019}, month={Jul} }