Berney Peng scite author profile

Protein micro/nanopatterning has long provided sophisticated strategies for a wide range of applications including biointerfaces, tissue engineering, optics/photonics, and bioelectronics. We present here the use of regenerated silk fibroin to explore wrinkle formation by exploiting the structure–function relation of silk. This yields a biopolymer-based reversible, multiresponsive, dynamic wrinkling system based on the protein’s responsiveness to external stimuli that allows on-demand tuning of surface morphologies and properties. The polymorphic transitions of silk fibroin enable modulation of the wrinkle patterns and, consequently, the material’s physical properties. The interplay between silk protein chains and external stimuli enables control over the protein film’s wrinkling dynamics. Thanks to the versatility of regenerated silk fibroin as a technological substrate, a number of demonstrator devices of varying utility are shown ranging from information encoding to modulation of optical transparency and thermal regulation.

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Ultrabright fluorescent silica nanoparticles for in vivo targeting of xenografted human tumors and cancer cells in zebrafish

Peerzade

Qin

Laroche

et al. 2019

Nanoscale

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Ultrabright fluorescent silica particles with a large number of complex spectra excited with a single wavelength for multiplex applications

2017

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We report on a novel approach to synthesize ultrabright fluorescent silica particles capable of producing a large number of complex spectra. The spectra can be excited using a single wavelength which is paramount in quantitative fluorescence imaging, flow cytometry and sensing applications. The approach employs the physical encapsulation of organic fluorescent molecules inside a nanoporous silica matrix with no dye leakage. As was recently demonstrated, such an encapsulation allowed for the encapsulation of very high concentrations of organic dyes without quenching their fluorescent efficiency. As a result, dye molecules are distanced within ∼5 nm from each other; it theoretically allows for efficient exchange of excitation energy via Förster resonance energy transfer (FRET). Here we present the first experimental demonstration of the encapsulation of fluorescent dyes in the FRET sequence. Attaining a FRET sequence of up to five different dyes is presented. The number of distinguishable spectra can be further increased by using different relative concentrations of encapsulated dyes. Combining these approaches allows for creating a large number of ultrabright fluorescent particles with substantially different fluorescence spectra. We also demonstrate the utilization of these particles for potential multiplexing applications. Though fluorescence spectra of the obtained multiplex probes are typically overlapping, they can be distinguished by using standard linear decomposition algorithms.

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Ultrabright fluorescent nanothermometers

et al. 2021

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Ultrabright fluorescent cellulose acetate nanoparticles for imaging tumors through systemic and topical applications

et al. 2019

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Cellulose acetate (CA), viscose, or artificial silk are biocompatible human-benign derivatives of cellulose, one of the most abundant biopolymers on earth. While various optical materials have been developed from CA, optical CA nanomaterials are nonexistent. Here we report on the assembly of a new family of extremely bright fluorescent CA nanoparticles (CA-dots), which are fully suitable for in vivo imaging / targeting applications. CA-dots can encapsulate a variety of molecular fluorophores. Using various commercially available fluorophores, we demonstrate that *

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Data on ultrabright fluorescent cellulose acetate nanoparticles for imaging tumors through systemic and topical applications

et al. 2019

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Characterization data of fluorescent nanoparticles made of cellulose acetate (CA-dots) are shown. The data in this article accompanies the research article “Ultrabright fluorescent cellulose acetate nanoparticles for imaging tumors through systemic and topical applications” [1]. The measurements and calculation of brightness of individual CA-dots are presented. The description of conjugation procedure Pluronic F127-Folic Acid copolymer and folic acid is shown. Identification of composition of CA dots using Raman and absorbance spectroscopy is demonstrated. The methods for image analysis of efficiency of CA-dot targeting of epithelial tumors xenografted in zebrafish is presented.

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Imaging of Molecular Coating on Nanoparticle Surface Using AFM Ringing Mode

et al. 2020

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Evaluating cell matrix mechanics using an integrated nonlinear optical tweezer-confocal imaging system

Peng

Alonzo

Xia

et al. 2013

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Berney Peng

Controlling silk fibroin conformation for dynamic, responsive, multifunctional, micropatterned surfaces

Ultrabright fluorescent silica nanoparticles for in vivo targeting of xenografted human tumors and cancer cells in zebrafish

Ultrabright fluorescent silica particles with a large number of complex spectra excited with a single wavelength for multiplex applications

Ultrabright fluorescent nanothermometers

Ultrabright fluorescent cellulose acetate nanoparticles for imaging tumors through systemic and topical applications

Data on ultrabright fluorescent cellulose acetate nanoparticles for imaging tumors through systemic and topical applications

Imaging of Molecular Coating on Nanoparticle Surface Using AFM Ringing Mode

Evaluating cell matrix mechanics using an integrated nonlinear optical tweezer-confocal imaging system

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