Mark Aindow
Overview
Explore the profile of Mark Aindow including associated specialties, affiliations and a list of published articles.
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21
Citations
50
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Recent Articles
1.
Xiao S, Borisov V, Gorgen-Lesseux G, Rommel S, Song G, Maita J, et al.
Nano Lett
. 2021 Sep;
21(19):7913-7920.
PMID: 34559544
The maximum recoverable strain of most crystalline solids is less than 1% because plastic deformation or fracture usually occurs at a small strain. In this work, we show that a...
2.
Tamarov K, Kiviluoto R, Swanson J, Unger B, Ernst A, Aindow M, et al.
ACS Appl Mater Interfaces
. 2020 Oct;
12(43):48969-48981.
PMID: 33052667
The recently discovered low-load metal-assisted catalytic etching (LL-MACE) creates nanostructured Si with controllable and variable characteristics that distinguish this technique from the conventional high-load variant. LL-MACE employs 150 times less...
3.
Tamarov K, Swanson J, Unger B, Kolasinski K, Ernst A, Aindow M, et al.
ACS Appl Mater Interfaces
. 2020 Jan;
12(4):4787-4796.
PMID: 31888334
Metal-assisted catalytic etching (MACE) involving Ag deposited on Si particles has been reported as a facile method for the production of Si nanowires (Si NWs). We show that the structure...
4.
Makila E, Anton Willmore A, Yu H, Irri M, Aindow M, Teesalu T, et al.
ACS Nano
. 2019 Nov;
13(11):13056-13064.
PMID: 31670505
Hierarchically nanostructured silicon was produced by regenerative electroless etching (ReEtching) of Si powder made from pulverized anodized porous silicon. This material is characterized by ∼15 nm mesopores, into the walls...
5.
Kolasinski K, Unger B, Ernst A, Aindow M
Front Chem
. 2019 Feb;
6:651.
PMID: 30701171
Metal-assisted catalytic etching (MACE) using Ag nanoparticles as catalysts and HO as oxidant has been performed on single-crystal Si wafers, single-crystal electronics grade Si powders, and polycrystalline metallurgical grade Si...
6.
Vijayan S, Aindow M
Ultramicroscopy
. 2018 Nov;
196:142-153.
PMID: 30391803
Micro electro mechanical systems (MEMS) based TEM specimen heating holders exhibit excellent thermal stability and minimal specimen drift, which allows thermally-activated processes to be studied dynamically at high spatial resolution....
7.
Zhang L, Ge G, Lin J, Aindow M, Zhang L
Sci Rep
. 2018 Sep;
8(1):14242.
PMID: 30250147
A series of β-γ Ti-44Al-8Nb-0.2B-0.2Y alloys have been modified with 0.5 to 2.0 at.% of the β-stabilizing elements Mn, Cr, Mo and V. Additions of Cr and Mo alone result...
8.
Suresh S, Lee S, Aindow M, Brody H, Champagne Jr V, Dongare A
Sci Rep
. 2018 Jul;
8(1):10075.
PMID: 29973642
A critical challenge in the predictive capability of materials deformation behavior under extreme environments is the availability of computational methods to model the microstructural evolution at the mesoscale. The capability...
9.
Ge G, Zhang L, Xin J, Lin J, Aindow M, Zhang L
Sci Rep
. 2018 Apr;
8(1):5453.
PMID: 29615734
A constitutive equation based on the hyperbolic sinusoidal Arrhenius-type model has been developed to describe the hot deformation behavior of a β-γ Ti-Al alloy containing 8 at.% of Nb. Experimental...
10.
Vijayan S, Jinschek J, Kujawa S, Greiser J, Aindow M
Microsc Microanal
. 2017 Jun;
23(4):708-716.
PMID: 28578727
Micro-electro-mechanical systems (MEMS)-based heating holders offer exceptional control of temperature and heating/cooling rates for transmission electron microscopy experiments. The use of such devices is relatively straightforward for nano-particulate samples, but...