Cikkek nyilvánosan hozzáférhető megbízással - Daniel BlankschteinTovábbi információ
Sehol sem hozzáférhető: 7
Stable, temperature-dependent gas mixture permeation and separation through suspended nanoporous single-layer graphene membranes
Z Yuan, JD Benck, Y Eatmon, D Blankschtein, MS Strano
Nano letters 18 (8), 5057-5069, 2018
Megbízások: US Department of Defense
Heterogeneity in skin treated with low-frequency ultrasound
J Kushner IV, D Blankschtein, R Langer
Journal of pharmaceutical sciences 97 (10), 4119-4128, 2008
Megbízások: US National Institutes of Health
2D equation-of-state model for corona phase molecular recognition on single-walled carbon nanotube and graphene surfaces
ZW Ulissi, J Zhang, V Sresht, D Blankschtein, MS Strano
Langmuir 31 (1), 628-636, 2015
Megbízások: US Department of Energy
Water electric field induced modulation of the wetting of hexagonal boron nitride: Insights from multiscale modeling of many-body polarization
S Luo, RP Misra, D Blankschtein
ACS nano 18 (2), 1629-1646, 2024
Megbízások: US Department of Energy
Surfactant-Aided Stabilization of Individual Carbon Nanotubes in Water around the Critical Micelle Concentration
P Wang, RP Misra, C Zhang, D Blankschtein, YH Wang
Langmuir 40 (1), 159-169, 2023
Megbízások: US National Science Foundation, US Department of Energy
Molecular Rotors for Universal Quantitation of Nanoscale Hydrophobic Interfaces in Microplate Format
PW Bisso, M Tai, H Katepalli, N Bertrand, D Blankschtein, R Langer
Nano Letters 18 (1), 618-628, 2018
Megbízások: US National Science Foundation, US National Institutes of Health
Polymer-Surfactant Complexation in Dilute Aqueous Solutions
YJ Nikas, D Blankschtein
Surfactants in Solution, 192-220, 2020
Megbízások: US National Science Foundation
Valahol hozzáférhető: 48
Lipid nanoparticle assisted mRNA delivery for potent cancer immunotherapy
MA Oberli, AM Reichmuth, JR Dorkin, MJ Mitchell, OS Fenton, A Jaklenec, ...
Nano letters 17 (3), 1326-1335, 2017
Megbízások: US National Institutes of Health, Wellcome Trust
mRNA vaccine delivery using lipid nanoparticles
AM Reichmuth, MA Oberli, A Jaklenec, R Langer, D Blankschtein
Therapeutic delivery 7 (5), 319-334, 2016
Megbízások: US National Institutes of Health
Ultrasound-mediated transdermal drug delivery: mechanisms, scope, and emerging trends
BE Polat, D Hart, R Langer, D Blankschtein
Journal of controlled release 152 (3), 330-348, 2011
Megbízások: US National Institutes of Health
Skin permeabilization for transdermal drug delivery: recent advances and future prospects
CM Schoellhammer, D Blankschtein, R Langer
Expert opinion on drug delivery 11 (3), 393-407, 2014
Megbízások: US National Institutes of Health
Dynamically reconfigurable complex emulsions via tunable interfacial tensions
LD Zarzar, V Sresht, EM Sletten, JA Kalow, D Blankschtein, TM Swager
Nature 518 (7540), 520-524, 2015
Megbízások: US National Institutes of Health
Molecular recognition using corona phase complexes made of synthetic polymers adsorbed on carbon nanotubes
J Zhang, MP Landry, PW Barone, JH Kim, S Lin, ZW Ulissi, D Lin, B Mu, ...
Nature nanotechnology 8 (12), 959-968, 2013
Megbízások: US National Institutes of Health, German Research Foundation
Critical knowledge gaps in mass transport through single-digit nanopores: A review and perspective
S Faucher, N Aluru, MZ Bazant, D Blankschtein, AH Brozena, J Cumings, ...
The Journal of Physical Chemistry C 123 (35), 21309-21326, 2019
Megbízások: US National Science Foundation, US Department of Energy
Lipid exchange envelope penetration (LEEP) of nanoparticles for plant engineering: a universal localization mechanism
MH Wong, RP Misra, JP Giraldo, SY Kwak, Y Son, MP Landry, JW Swan, ...
Nano letters 16 (2), 1161-1172, 2016
Megbízások: US National Science Foundation, US Department of Energy, A*Star, Singapore
Generalized mechanistic model for the chemical vapor deposition of 2D transition metal dichalcogenide monolayers
A Govind Rajan, JH Warner, D Blankschtein, MS Strano
ACS nano 10 (4), 4330-4344, 2016
Megbízások: US National Science Foundation, US Department of Energy
Microneedles for drug delivery via the gastrointestinal tract
G Traverso, CM Schoellhammer, A Schroeder, R Maa, GY Lauwers, ...
Journal of pharmaceutical sciences 104 (2), 362-367, 2015
Megbízások: US National Institutes of Health
Low-frequency sonophoresis: application to the transdermal delivery of macromolecules and hydrophilic drugs
BE Polat, D Blankschtein, R Langer
Expert opinion on drug delivery 7 (12), 1415-1432, 2010
Megbízások: US National Institutes of Health
Reconfigurable and responsive droplet-based compound micro-lenses
S Nagelberg, LD Zarzar, N Nicolas, K Subramanian, JA Kalow, V Sresht, ...
Nature communications 8 (1), 14673, 2017
Megbízások: US National Science Foundation, Natural Sciences and Engineering Research …
Enhancing the transdermal delivery of rigid nanoparticles using the simultaneous application of ultrasound and sodium lauryl sulfate
RFV Lopez, JE Seto, D Blankschtein, R Langer
Biomaterials 32 (3), 933-941, 2011
Megbízások: US National Institutes of Health
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