Brian Rodriguez

Nov 25, 2024 | pubs.rsc.org | Qiancheng Zhang |Srikanth Kolagatla |Paula M. Vilarinho |Brian Rodriguez

Electrostriction Contribution to the Electromechanical Response of Cast Chitosan Films Polysaccharides offer great potential for the development of flexible and sustainable electronics thanks to their inherent biocompatibility and biodegradability. Chitosan is a promising material for biomedical applications, but its electromechanical behavior remains intriguing.

May 16, 2024 | pubs.rsc.org | College Dublin |Brian Rodriguez |Biomedical Research |Aeshah F. Alotaibi

A nano-imprinted graphene oxide-cellulose composite as a SERS active substrate Cellulose is a sustainable material capable of forming optically active nanoarrays on its surface. We created a composite of cellulose acetate (CA) and graphene oxide (GO), by mixing GO (0.1 mg mL−1) into CA.

May 9, 2024 | pubs.usgs.gov | Brian Rodriguez |Douglas B. Yager |Eric Anderson |Robert L. Runkel

Links More information: Publisher Index Page (via DOI) Open Access Version: Publisher Index Page Download citation as: RIS | Dublin Core Study Area Publication type Article Publication Subtype Journal Article Title Deep resistivity geophysics of the San Juan–Silverton caldera complex, San Juan County, Colorado (USA) Series title Geosphere DOI 10.1130/GES02550.1 Edition Online First Year Published 2024 Language English Publisher Geological Society of America Contributing office(s) Colorado...

Apr 30, 2024 | onlinelibrary.wiley.com | Guangming Lu |Brian Rodriguez |Ian Maclaren |Ekhard K.H. Salje

1 Introduction In the realm of ferroics, domains are regions with uniform atomic arrangements and order parameters such as polarization in ferroelectric materials or magnetization in ferromagnets. These domains are separated by interfaces known as domain walls, recognized as functional elements with distinct emerging properties that can be created, manipulated, and annihilated by applying external fields.

Feb 13, 2024 | pericles.pericles-prod.literatumonline.com | Jessica McFadden |Graham Reid |Brian Rodriguez |Lucia Podhorska

We report on the fabrication of four different nanostructured silicon surfaces by using a combination of block copolymer micelle lithography. Nanoparticle hard masks were evaluated for their ability to produce single height nanoneedle arrays. Low-density (3 features μm-2 and high-density (201 features μm-2) single-height arrays were produced from Au or α-Fe2O3 masks respectively.