Statistics for Design and development of hybrid hydrophilic-superhydrophobic surfaces to improve the productivity of atmospheric water harvesting

Total visits

views
Design and development of hybrid hydrophilic-superhydrophobic surfaces to improve the productivity of atmospheric water harvesting 435

Total visits per month

views
October 2023 0
November 2023 1
December 2023 0
January 2024 0
February 2024 4
March 2024 0
April 2024 0

File Visits

views
ALMUSAIED-DISSERTATION-2022.pdf 523

Top country views

views
United States 300
Ireland 18
China 17
India 14
Iraq 8
South Korea 7
France 6
Singapore 6
Iran 5
Turkey 5
United Kingdom 3
Thailand 3
Australia 2
Indonesia 2
Kenya 2
Morocco 2
Netherlands 2
Philippines 2
Vietnam 2
Bangladesh 1
Costa Rica 1
Estonia 1
Egypt 1
Spain 1
Finland 1
Hong Kong SAR China 1
Israel 1
Malaysia 1
Pakistan 1
Qatar 1
Romania 1
Saudi Arabia 1
Sweden 1
Slovakia 1

Top city views

views
San Marcos 246
Dublin 17
Austin 9
Baghdad 8
Singapore 6
Hangzhou 4
Houston 4
Seattle 4
Bangkok 3
Chengdu 3
Jiaozuo 3
Yokohama 3
Boardman 2
Boydton 2
Fes 2
Ghaziabad 2
Gilroy 2
Grenoble 2
Harderwijk 2
Hiroshima 2
Ho Chi Minh City 2
Jabalpur 2
Mountain View 2
Mumbai 2
Paris 2
Sydney 2
Tehran 2
Albuquerque 1
Algaida 1
Ankara 1
Argomulyo 1
Bagumbayan 1
Bangkalan 1
Beaufort 1
Belusa 1
Bengaluru 1
Birmingham 1
Canning Town 1
Cebu City 1
Central 1
Clichy 1
Dhaka 1
Doha 1
Fort Myers 1
Huddinge 1
Jeddah 1
Jensen Beach 1
Klamath Falls 1
Lahore 1
Los Angeles 1
Manipal 1
Merkaz HaKarmel 1
New Delhi 1
Petaling Jaya 1
Philadelphia 1
Pohang 1
Poole 1
Raigarh 1
Saginaw 1
San Diego 1
San José 1
Seoul 1
Songpa-dong 1
St Louis 1
Tartu 1
Tokyo 1
Tuscaloosa 1
Ulsan 1
Valcea 1