Gary G Wells
Overview
Explore the profile of Gary G Wells including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
23
Citations
110
Followers
0
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Barrio-Zhang H, Ruiz-Gutierrez E, Orejon D, Wells G, Ledesma-Aguilar R
Eur Phys J E Soft Matter
. 2024 May;
47(5):32.
PMID: 38735905
The motion of droplets on solid surfaces in response to an external gradient is a fundamental problem with a broad range of applications, including water harvesting, heat exchange, mixing and...
2.
Raynard A, Abbas A, Armstrong S, Wells G, McHale G, Sefiane K, et al.
Sci Rep
. 2024 Jan;
14(1):1750.
PMID: 38242933
Controlling the dynamics of droplet evaporation is critical to numerous fundamental and industrial applications. The three main modes of evaporation so far reported on smooth surfaces are the constant contact...
3.
Pelizzari M, McHale G, Armstrong S, Zhao H, Ledesma-Aguilar R, Wells G, et al.
Langmuir
. 2023 Oct;
39(44):15676-15689.
PMID: 37874819
Young's equation is fundamental to the concept of the wettability of a solid surface. It defines the contact angle for a droplet on a solid surface through a local equilibrium...
4.
Jenkins A, Wells G, Ledesma-Aguilar R, Orejon D, Armstrong S, McHale G
J Chem Phys
. 2023 Apr;
158(12):124708.
PMID: 37003735
For sessile droplets of pure liquid on a surface, evaporation depends on surface wettability, the surrounding environment, contact angle hysteresis, and surface roughness. For non-pure liquids, the evaporation characteristics are...
5.
Abbas A, Wells G, McHale G, Sefiane K, Orejon D
ACS Appl Mater Interfaces
. 2023 Feb;
15(8):11281-11295.
PMID: 36790315
Wetting plays a major role in the close interactions between liquids and solid surfaces, which can be tailored by modifying the chemistry as well as the structures of the surfaces'...
6.
McHale G, Afify N, Armstrong S, Wells G, Ledesma-Aguilar R
Langmuir
. 2022 Aug;
38(32):10032-10042.
PMID: 35921631
Slippery liquid-infused porous surfaces (SLIPS) are an innovation that reduces droplet-solid contact line pinning and interfacial friction. Recently, it has been shown that a liquid analogue of Young's law can...
7.
McHale G, Gao N, Wells G, Barrio-Zhang H, Ledesma-Aguilar R
Langmuir
. 2022 Mar;
38(14):4425-4433.
PMID: 35353534
The empirical laws of dry friction between two solid bodies date back to the work of Amontons in 1699 and are pre-dated by the work of Leonardo da Vinci. Fundamental...
8.
Ruiz-Gutierrez E, Edwards A, McHale G, Newton M, Wells G, Brown C, et al.
Langmuir
. 2021 Jun;
37(24):7328-7340.
PMID: 34101471
The dynamic effect of an electric field on dielectric liquids is called liquid dielectrophoresis. It is widely used in several industrial and scientific applications, including inkjet printing, microfabrication, and optical...
9.
Edwards A, Ruiz-Gutierrez E, Newton M, McHale G, Wells G, Ledesma-Aguilar R, et al.
Sci Rep
. 2021 Apr;
11(1):8120.
PMID: 33854150
The breakup of a slender filament of liquid driven by surface tension is a classical fluid dynamics stability problem that is important in many situations where fine droplets are required....
10.
Barrio-Zhang H, Ruiz-Gutierrez E, Armstrong S, McHale G, Wells G, Ledesma-Aguilar R
Langmuir
. 2020 Dec;
36(49):15094-15101.
PMID: 33258609
Contact-line pinning and dynamic friction are fundamental forces that oppose the motion of droplets on solid surfaces. Everyday experience suggests that if a solid surface offers low contact-line pinning, it...