{"id":76,"date":"2020-08-12T23:44:04","date_gmt":"2020-08-13T03:44:04","guid":{"rendered":"https:\/\/web.uri.edu\/mml\/?page_id=76"},"modified":"2025-09-03T20:44:10","modified_gmt":"2025-09-04T00:44:10","slug":"publications","status":"publish","type":"page","link":"https:\/\/web.uri.edu\/mml\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Book Chapter
<\/strong>\u200b[3] Varela, Bryan, Samantha Kipper, and Yang Lin. “Applications of microfluidics for sustainable pharmaceutical manufacturing.” In Sustainability in the Manufacturing of Pharmaceuticals, pp. 93-120. Academic Press, 2025.<\/span><\/p>\n

[2] Gong, Liyuan, and Yang Lin. “Microfluidics in smart food safety.” Advances in food and nutrition research 111 (2024): 305-354.<\/span><\/p>\n

[1] Lin, Yang, and Jie Xu. “Paper-fluidic Based Sensing in Food Safety and Quality Analysis.” (2017).<\/p>\n

\u200b<\/span>Peer-Reviewed Journal Articles
<\/strong><\/p>\n

[37] Ghaznavi, Amirreza, Sonia Alavi, Yang Lin, Seth A. Hara, Richard A. Gemeinhart, and Jie Xu. “3D Printed Hollow Microneedles for Dermal and Transdermal Drug Delivery: Design, Fabrication, Application, and Perspective.” Molecular Pharmaceutics (2025).<\/p>\n

[36] Gong, Liyuan, Bryan Varela, Erfan Eskandari, Juan Zubieta Lombana, Payel Biswas, Luyao Ma, Irene Andreu, and Yang Lin. “Machine Learning-driven Optical Microfiltration Device for Improved Nanoplastic Sampling and Detection in Water Systems.” Journal of Hazardous Materials (2025): 138472.<\/p>\n

[35] Gong, Liyuan, Animesh Pan, Takeshi Matsuo, Hemalatha Kanniyappan, Irene Andreu, Alan Rothman, Geoffrey D. Bothun, Mathew Mathew, and Yang Lin. “Effects of weathering and simulated gastric fluid exposure on cellular responses to polystyrene particles.” Environmental Science: Nano 12, no. 1 (2025): 528-547.<\/p>\n

[34] Jeffers, Matthew, Hemalatha Kanniyappan, Kai Yuan Cheng, Saundarya Prithweeraj, Govindaraj Perumal, Mark Barba, Yang Lin, and Mathew T. Mathew. “Toxicity risk from hip implant CoCrMo particles: The impact of dynamic flow rate on neuronal cells in microfluidic systems.” Toxicology Letters 402 (2024): 56-67.<\/p>\n

[33] Gong, Liyuan, Animesh Pan, Takeshi Matsuo, Hemalatha Kanniyappan, Irene Andreu, Alan Rothman, Geoffrey D. Bothun, Mathew Mathew, and Yang Lin. “Effects of weathering and simulated gastric fluid exposure on cellular responses to polystyrene particles.” Environmental Science: Nano 12, no. 1 (2025): 528-547.<\/p>\n

[32] Mesquita, Pedro, Yang Lin, Liyuan Gong, and Daniel Schwartz. “Separation of Microplastics from Blood Samples Using Traveling Surface Acoustic Waves.” Microplastics 3, no. 3 (2024): 449-462.<\/p>\n

[31] Feng, Shaolong, Yang Lin, Jie Xu, and Xiaonan Lu. “Inertial microfluidic-assisted rapid detection of chemical contaminant in foods using quantum dots-based molecularly imprinted sensor.” Sensors and Actuators b: Chemical 394 (2023): 134342.<\/p>\n

[30] Gong, Liyuan, Omar Martinez, Pedro Mesquita, Kayla Kurtz, Yang Xu, and Yang Lin. “A microfluidic approach for label-free identification of small-sized microplastics in seawater.” Scientific Reports 13, no. 1 (2023): 11011.<\/p>\n

[29] Guan, Yanfang, Yansheng Liu, Qilong Wang, Hao Geng, Tangyong Cui, Yuang Hu, Qing Luo et al. “Inchworm-inspired soft robot with magnetic driving based on PDMS, EGaIn and NdFeB (PEN) combination.” Chemical Engineering Journal 466 (2023): 142994.<\/p>\n

[28] Gong, Liyuan, Andrew Cretella, and Yang Lin. “Microfluidic systems for particle capture and release: A review.” Biosensors and Bioelectronics 236 (2023): 115426.<\/p>\n

[27] Guan, Yanfang, Mingyang Bai, Qilong Wang, Lei Liu, Shaobo Yu, Bingru Kong, Feng Lv et al. “A self-powered wearable piezoelectric nanogenerator for physiological monitoring based on lead zirconate titanate\/microfibrillated cellulose@ polyvinyl alcohol (PZT\/MFC@ PVA) composition.” Chemical Engineering Journal 460 (2023): 141598.<\/p>\n

[26] Guan, Yanfang, Lei Liu, Shaobo Yu, Feng Lv, Mingshuo Guo, Qing Luo, Shukai Zhang et al. “A Noninvasive Sweat Glucose Biosensor Based on Glucose Oxidase\/Multiwalled Carbon Nanotubes\/Ferrocene-Polyaniline Film\/Cu Electrodes.” Micromachines 13, no. 12 (2022): 2142.<\/p>\n

[25] Kreps, Stanislav, Vladimir Shuvayev, Mark Douvidzon, Baheej Bathish, Tom Lenkiewicz Abudi, Amirreza Ghaznavi, Jie Xu, Yang Lin, Lev Deych, and Tal Carmon. “Coupled spherical-cavities.” AIP Advances 12, no. 12 (2022).<\/p>\n

[24] Gaynes, Bruce I., Mark B. Shapiro, Abel Saju Augustine, Yang Xu, Yang Lin, Parisa Mirbod, Robert S. Dieter et al. “Hierarchical data visualization of experimental erythrocyte aggregation employing cross correlation and optical flow applications.” Microvascular Research 143 (2022): 104386.<\/p>\n

[23] Guan, Yanfang, Mingyang Bai, Qiuliang Li, Wujie Li, Guangyu Liu, Chunbo Liu, Yu Chen, Yang Lin, Yanbo Hui, and Ronghan Wei. “A plantar wearable pressure sensor based on hybrid lead zirconate-titanate\/microfibrillated cellulose piezoelectric composite films for human health monitoring.” Lab on a Chip 22, no. 12 (2022): 2376-2391.<\/p>\n

[22] Mesquita, Pedro, Liyuan Gong, and Yang Lin. “Low-cost microfluidics: Towards affordable environmental monitoring and assessment.” Frontiers in Lab on a Chip Technologies 1 (2022): 1074009.<\/p>\n

[21] Mesquita, Pedro, Liyuan Gong, and Yang Lin. “A low-cost microfluidic method for microplastics identification: Towards continuous recognition.” Micromachines 13, no. 4 (2022): 499.<\/p>\n

[20] Ghaznavi, Amirreza, Yang Lin, Mark Douvidzon, Adam Szmelter, Alannah Rodrigues, Malik Blackman, David Eddington et al. “A monolithic 3D printed axisymmetric co-flow single and compound emulsion generator.” Micromachines 13, no. 2 (2022): 188.<\/p>\n

[19] Badhe, Ravindra V., Divya Bijukumar, Pedro Mesquita, Kai Yuan Cheng, Remya Ampadi Ramachandran, Yang Lin, and Mathew T. Mathew. “Dynamic microfluidic bioreactor\u2014Hip simulator (DMBH) system for implant toxicity monitoring.” Biotechnology and Bioengineering 118, no. 12 (2021): 4829-4839.<\/p>\n

[18] Gao, Yuan, Mengren Wu, Yang Lin, and Jie Xu. “Trapping and control of bubbles in various microfluidic applications.” Lab on a Chip 20, no. 24 (2020): 4512-4527.<\/p>\n

[17] Surendran, Athira N., Ran Zhou, and Yang Lin. “Microfluidic devices for magnetic separation of biological particles: a review.” Journal of Medical Devices 15, no. 2 (2021): 024001.<\/p>\n

[16] Gao, Yuan, Mengren Wu, Yang Lin, and Jie Xu. “Acoustic microfluidic separation techniques and bioapplications: a review.” Micromachines 11, no. 10 (2020): 921.<\/p>\n

[15] Gao, Yuan, Mengren Wu, Yang Lin, Weiqi Zhao, and Jie Xu. “Acoustic bubble-based bidirectional micropump.” Microfluidics and Nanofluidics 24 (2020): 1-10.<\/p>\n

[14] Zhao, Weiqi, Yunyi Xing, Yang Lin, Yuan Gao, Mengren Wu, and Jie Xu. “Monolayer graphene chemiresistive biosensor for rapid bacteria detection in a microchannel.” Sensors and Actuators Reports 2, no. 1 (2020): 100004.<\/p>\n

\u200b<\/span>[13] Zhou, Ran, Athira N. Surendran, Marcel Mejulu, and Yang Lin. “Rapid microfluidic mixer based on ferrofluid and integrated microscale NdFeB-PDMS magnet.” Micromachines 11, no. 1 (2019): 29.<\/p>\n

\u200b<\/span>[12] Lin, Yang, Yuan Gao, Mengren Wu, Ran Zhou, Daayun Chung, Gabriela Caraveo, and Jie Xu. “Acoustofluidic stick-and-play micropump built on foil for single-cell trapping.” Lab on a Chip 19, no. 18 (2019): 3045-3053.<\/p>\n

[11] Lin, Yang, Can Gao, Yuan Gao, Mengren Wu, Alireza Ahmadian Yazdi, and Jie Xu. “Acoustofluidic micromixer on lab-on-a-foil devices.” Sensors and Actuators B: Chemical 287 (2019): 312-319.<\/p>\n

\u200b<\/span>[10] Lin, Yang, Ran Zhou, and Jie Xu. “Superhydrophobic surfaces based on fractal and hierarchical microstructures using two\u2010photon polymerization: toward flexible superhydrophobic films.” Advanced Materials Interfaces 5, no. 21 (2018): 1801126.<\/p>\n

\u200b<\/span>[9] Lin, Yang, Can Gao, Dmitry Gritsenko, Ran Zhou, and Jie Xu. “Soft lithography based on photolithography and two-photon polymerization.” Microfluidics and Nanofluidics 22 (2018): 1-11.<\/p>\n

\u200b<\/span>[8] Gritsenko, Dmitry, Yang Lin, Vladimir Hovorka, Zhifeng Zhang, Alireza Ahmadianyazdi, and Jie Xu. “Vibrational modes prediction for water-air bubbles trapped in circular microcavities.” Physics of Fluids 30, no. 8 (2018).<\/p>\n

\u200b<\/span>[7] Lin, Yang, and Jie Xu. “Microstructures fabricated by two\u2010photon polymerization and their remote manipulation techniques: toward 3D printing of micromachines.” Advanced Optical Materials 6, no. 8 (2018): 1701359.<\/p>\n

\u200b<\/span>[6] Gritsenko, Dmitry, Alireza Ahmadian Yazdi, Yang Lin, Vladimir Hovorka, Yayue Pan, and Jie Xu. “On characterization of separation force for resin replenishment enhancement in 3D printing.” Additive Manufacturing 17 (2017): 151-156.<\/p>\n

\u200b<\/span>[5] Gritsenko, Dmitry, Alireza Ahmadian Yazdi, Yang Lin, Vladimir Hovorka, Yayue Pan, and Jie Xu. “On characterization of separation force for resin replenishment enhancement in 3D printing.” Additive Manufacturing 17 (2017): 151-156.<\/p>\n

\u200b<\/span>[4] De Vellis, Andrea, Dmitry Gritsenko, Yang Lin, Zhenping Wu, Xian Zhang, Yayue Pan, Wei Xue, and Jie Xu. “Drastic sensing enhancement using acoustic bubbles for surface-based microfluidic sensors.” Sensors and Actuators B: Chemical 243 (2017): 298-302.<\/p>\n

\u200b<\/span>[3] Lin, Yang, Dmitry Gritsenko, Qian Liu, Xiaonan Lu, and Jie Xu. “Recent advancements in functionalized paper-based electronics.” ACS Applied Materials & Interfaces 8, no. 32 (2016): 20501-20515.<\/p>\n

\u200b<\/span>[2] Lin, Yang, Dmitry Gritsenko, Shaolong Feng, Yi Chen Teh, Xiaonan Lu, and Jie Xu. “Detection of heavy metal by paper-based microfluidics.” Biosensors and Bioelectronics 83 (2016): 256-266.<\/p>\n

\u200b<\/span>[1] Lin, Yang, and Jinhong Gao. “Research of Infrared Image Acquisition and Control System (In Chinese)”, Journal of Beijing Information Science and Technology University (natural science), (2014),06:56-59.<\/p>\n

Peer-Reviewed Conferences Articles<\/strong><\/p>\n

[1] Gong, Liyuan, Kevin Rivera, Birendra Chaudhary, Takeshi Matsuo, Mitchell Farah, Robert Hartman, Samuel Greene, and Yang Lin. “Microfluidic Bi-Axial Cell Stretching Platform for Intestinal Epithelial Cell Modeling.” In Fluids Engineering Division Summer Meeting, vol. 88131, p. V002T06A001. American Society of Mechanical Engineers, 2024.<\/p>\n

Conference Presentations    <\/strong> 
<\/u><\/p>\n

[16] Liyuan Gong, Bryan Varela, Payel Biswas, Juan Zubieta, Sam Kipper, Irene Andreu, Yang Lin ” A Parallel \u00b5SEC and Machine Learning for Nanoplastic Detection and Characterization” poster presentation, MicroTAS 2024, Oct 13-17th, Montr\u00e9al, Canada. <\/p>\n

[15]  Liyuan Gong, Kevin Rivera, Birendra Chaudhury, Mitchell Farah, Robert Hartman, Samuel Greene, Yang Lin ” Microfluidic Bi-Axial Cell Stretching Platform for Intestinal Epithelial Cell Modeling” Chicago Bioengineering conference, poster presentation, Chicago, USA<\/p>\n

[14] Liyuan Gong, Kevin Rivera, Birendra Chaudhury, Mitchell Farah, Robert Hartman, Samuel Greene, Yang Lin ” Microfluidic Bi-Axial Cell Stretching Platform for Intestinal Epithelial Cell Modeling” 2024 International Mammalian Workshop, poster presentation, Boston, USA<\/p>\n

[13] Liyuan Gong, Kevin Rivera, Birendra Chaudhury, Mitchell Farah, Robert Hartman, Samuel Greene, Yang Lin ” Microfluidic Bi-Axial Cell Stretching Platform for Intestinal Epithelial Cell Modeling” FEDSM, 2024, Anaheim, CA, USA<\/p>\n

[12] Liyuan Gong, Kevin Rivera, Birendra Chaudhury, Mitchell Farah, Robert Hartman, Samuel Greene, Yang Lin ” Microfluidic Bi-Axial Cell Stretching Platform for Intestinal Epithelial Cell Modeling” SelectBio Lab-on-a-chip world congress 2023, Laguna Hills, CA, USA<\/p>\n

[11] Liyuan Gong, Omar Martinez, Pedro Mesquita, Kayla Kurtz, and Yang Lin, A microfluidic approach for label-free identification of small-sized microplastics in seawater, ASME IMECE, 2022, Ohio, USA<\/p>\n

[10] Pedro Mesquita, Liyuan Gong, and Yang Lin, <\/u>Microplastics identification using microfluidics: Towards continuous recognition, Innovations in Microfluidics & SCA, 2022, Boston, USA

[9] Amirreza Ghaznavi, Yang Lin, Tal Carmon, Lev Deych, Lan Yang, and Jie Xu, A Novel Monolithic 3D Printed Axisymmetric Co-flow Single and Double Emulsion Generator, ASME IMECE, 2020, Virtual Conference<\/u><\/p>\n

[8] Yuan Gao, Mengren Wu, Yang Lin, Weiqi Zhao, and Jie Xu, Acoustofluidic bidirectional micropump, Acoustofluidics 2020, Virtual Conference<\/u><\/p>\n

<\/u>[7] Yang Lin, Yuan Gao, Mengren Wu, Weiqi Zhao, and Jie Xu, Acoustofluidic micropump on lab-on-a-foil devices<\/em>, ASME IMECE, 2019, Salt Lake City, USA<\/p>\n

[6] Yang Lin, Yuan Gao, Mengren Wu, and Jie Xu, Acoustofluidic micromixer on lab-on-a-foil devices<\/em>, ASME IMECE, 2019, Salt Lake City, USA<\/p>\n

[5] Yang Lin, Can Gao, and Jie Xu, Soft lithography based on photolithography and two-photon polymerization<\/em>, AIChE Midwest Regional Conference, 2019, Chicago, USA<\/p>\n

[4] Yang Lin, Can Gao, and Jie Xu, Soft lithography based on photolithography and two-photon polymerization<\/em>, Lab-on-a-Chip and Microfluidics World Congress 2018, Coronado Island, San Diego, USA<\/p>\n

[3] Dmitry Gritsenko, Andrea De Vellis, Yang Lin and Jie Xu, Use of Acoustic Microstreaming for Drastic Sensing Enhancement<\/em>, AIChE Midwest Regional Conference, 2017, Chicago, USA<\/p>\n

[2] S\u00e9bastien M\u00e9ance, Yang Lin, Meghana Machireddy, Panfeng Fu, Vadim Gaponenko, Steven J. Ackerman, Viswanathan Natarajan and Jie Xu, Fabrication of Extracellular Matrix Coated Membranes in Lung-on-Chips using Two-photon Polymerization<\/em>, MicroTAS 2017, Savannah, Georgia, USA<\/p>\n

[1] Andrea De Vellis, Dmitry Gritsenko, Yang Lin, Zhenping Wu, Xian Zhang, Yayue Pan, Wei Xue and Jie Xu, Acoustic bubbles for microfluidic sensing enhancement<\/em>, Microfluidics Congress: USA, 2016, Philadelphia<\/p>\n\n\n

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Book Chapter\u200b[3] Varela, Bryan, Samantha Kipper, and Yang Lin. “Applications of microfluidics for sustainable pharmaceutical manufacturing.” In Sustainability in the Manufacturing of Pharmaceuticals, pp. 93-120. Academic Press, 2025. [2] Gong, Liyuan, and Yang Lin. “Microfluidics in smart food safety.” Advances in food and nutrition research 111 (2024): 305-354. [1] Lin, Yang, and Jie Xu. “Paper-fluidic […]<\/p>\n","protected":false},"author":3842,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-76","page","type-page","status-publish","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/pages\/76","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/users\/3842"}],"replies":[{"embeddable":true,"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/comments?post=76"}],"version-history":[{"count":4,"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/pages\/76\/revisions"}],"predecessor-version":[{"id":1249,"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/pages\/76\/revisions\/1249"}],"wp:attachment":[{"href":"https:\/\/web.uri.edu\/mml\/wp-json\/wp\/v2\/media?parent=76"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}