@article{nguyen_nelson_skoog_jaipan_petrochenko_kaiser_lo_moreno_narayan_goering_et al._2022, title={Effect of simulated body fluid formulation on orthopedic device apatite-forming ability assessment}, ISSN={["1552-4981"]}, DOI={10.1002/jbm.b.35207}, abstractNote={Abstract}, journal={JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART B-APPLIED BIOMATERIALS}, author={Nguyen, Alexander K. K. and Nelson, Sarah B. B. and Skoog, Shelby A. A. and Jaipan, Panupong and Petrochenko, Peter E. E. and Kaiser, Aric and Lo, Linh and Moreno, Jose and Narayan, Roger J. J. and Goering, Peter L. L. and et al.}, year={2022}, month={Nov} }
 @article{jaipan_nannuri_mucha_singh_xu_moatti_narayan_fialkova_kotoka_yarmolenko_et al._2018, title={Influence of Gold Catalyst on the Growth o Titanium Nitride Nanowires}, volume={7}, ISSN={["2169-4303"]}, DOI={10.1166/mat.2018.1571}, number={5}, journal={MATERIALS FOCUS}, author={Jaipan, Panupong and Nannuri, Chandra and Mucha, Nikhil Reddy and Singh, Mayur P. and Xu, Zhigang and Moatti, Adele and Narayan, Jay and Fialkova, Svitlana and Kotoka, Ruben and Yarmolenko, Sergey and et al.}, year={2018}, month={Oct}, pages={720–725} }
 @article{boehm_jaipan_skoog_stafslien_vanderwal_narayan_2016, title={Inkjet deposition of itraconazole onto poly(glycolic acid) microneedle arrays}, volume={11}, ISSN={["1559-4106"]}, DOI={10.1116/1.4941448}, abstractNote={Poly(glycolic acid) microneedle arrays were fabricated using a drawing lithography process; these arrays were modified with a drug release agent and an antifungal agent by piezoelectric inkjet printing. Coatings containing poly(methyl vinyl ether–co–maleic anhydride), a water-soluble drug release layer, and itraconazole (an antifungal agent), were applied to the microneedles by piezoelectric inkjet printing. Microscopic evaluation of the microneedles indicated that the modified microneedles contained the piezoelectric inkjet printing-deposited agents and that the surface coatings were released in porcine skin. Energy dispersive x-ray spectrometry aided in confirmation that the piezoelectric inkjet printing-deposited agents were successfully applied to the desired target areas of the microneedle surface. Fourier transform infrared spectroscopy was used to confirm the presence of the component materials in the piezoelectric inkjet printing-deposited material. Itraconazole-modified microneedle arrays incubated with agar plates containing Candida albicans cultures showed zones of growth inhibition.}, number={1}, journal={BIOINTERPHASES}, author={Boehm, Ryan D. and Jaipan, Panupong and Skoog, Shelby A. and Stafslien, Shane and VanderWal, Lyndsi and Narayan, Roger J.}, year={2016}, month={Mar} }
 @misc{jaipan_nguyen_narayan, title={Gelatin-based hydrogels for biomedical applications}, volume={7}, number={3}, journal={MRS Communications}, author={Jaipan, P. and Nguyen, A. and Narayan, R. J.}, pages={416–426} }