E James Davis
Overview
Explore the profile of E James Davis including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
103
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Recent Articles
1.
Pandres E, Crane M, Davis E, Pauzauskie P, Holmberg V
ACS Nano
. 2021 May;
15(5):8653-8662.
PMID: 33950682
Semiconductor nanowire production through vapor- and solution-based processes has propelled nanowire systems toward a wide range of technological applications. Although vapor-based nanowire syntheses enable precise control over nanowire composition and...
2.
Pant A, Xia X, Davis E, Pauzauskie P
Nat Commun
. 2020 Jun;
11(1):3235.
PMID: 32576820
Photothermal heating represents a major constraint that limits the performance of many nanoscale optoelectronic and optomechanical devices including nanolasers, quantum optomechanical resonators, and integrated photonic circuits. Here, we demonstrate the...
3.
Crane M, Pandres E, Davis E, Holmberg V, Pauzauskie P
Nat Commun
. 2019 Nov;
10(1):4942.
PMID: 31666504
As devices approach the single-nanoparticle scale, the rational assembly of nanomaterial heterojunctions remains a persistent challenge. While optical traps can manipulate objects in three dimensions, to date, nanoscale materials have...
4.
Crane M, Zhou X, Davis E, Pauzauskie P
Chem Asian J
. 2018 Jun;
13(18):2575-2586.
PMID: 29890034
A vast range of insulating, semiconducting, and metallic nanomaterials have been studied over the past several decades with the aim of understanding how continuous-wave or pulsed laser radiation can influence...
5.
Roder P, Pauzauskie P, Davis E
Langmuir
. 2012 Oct;
28(46):16177-85.
PMID: 23061375
The dissipative absorption of electromagnetic energy by 1D nanoscale structures at optical frequencies is applicable to several important phenomena, including biomedical photothermal theranostics, nanoscale photovoltaic materials, atmospheric aerosols, and integrated...
6.
Davis E
J Phys Chem A
. 2008 Feb;
112(9):1922-32.
PMID: 18266341
The uptake of trace gases such as OH and HO2 radicals, NH3, ClONO2, N2O5, ozone, and many other gases by water, aqueous solutions of acids, and salts has been reported...
7.
Sengupta A, Thai C, Sastry M, Matthaei J, Schwartz D, Davis E, et al.
Langmuir
. 2008 Jan;
24(5):2000-8.
PMID: 18193902
Although silver nanoparticles are excellent surface enhancers for Raman spectroscopy, their use to probe the conformation of large proteins at interfaces has been complicated by the fact that many polypeptides...
8.
Volny M, Sengupta A, Wilson C, Swanson B, Davis E, Turecek F
Anal Chem
. 2007 May;
79(12):4543-51.
PMID: 17503769
Surface-enhanced Raman spectroscopy (SERS) was used to detect and characterize polyatomic cations and molecules that were electrosprayed into the gas phase and soft-landed in vacuum on plasma-treated silver substrates. Organic...
9.
Sengupta A, Brar N, Davis E
J Colloid Interface Sci
. 2007 Mar;
309(1):36-43.
PMID: 17362975
Instrumentation has been developed to detect and characterize airborne pollen and bacteria rapidly by injecting a bioaerosol into a nanocolloidal suspension of silver particles using a micropump. The biological particles...
10.
Sengupta A, Mujacic M, Davis E
Anal Bioanal Chem
. 2006 Aug;
386(5):1379-86.
PMID: 16933128
The detection and identification of dilute bacterial samples by surface-enhanced Raman spectroscopy has been explored by mixing aqueous suspensions of bacteria with a suspension of nanocolloidal silver particles. An estimate...