Total words: 2314 | 2-word phrases: 596 | 3-word phrases: 667 | 4-word phrases: 702
Title | Try to keep the title under 60 characters (50 characters) LiquiGlide is Revolutionizing the Way Liquids Move |
Description | Try to keep the meta description between 50 - 160 characters (142 characters) LiquiGlide is the first and only viable technology that allows viscous liquids to slide effortlessly. The possible applications are limitless. |
Keywords | Meta keywords are not recommended anymore (0 characters) |
H1 | H1 tag on the page (30 characters) Building a Frictionless Future |
# | Keyword | H1 | Title | Des | Volume | Position | Suggest | Frequency | Density |
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1 | and | 26 | 7.45% | ||||||
2 | surfaces | 21 | 6.02% | ||||||
3 | a | 17 | 4.87% | ||||||
4 | k | 14 | 4.01% | ||||||
5 | read | 14 | 4.01% | ||||||
6 | publication | 14 | 4.01% | ||||||
7 | the | 14 | 4.01% | ||||||
8 | of | 14 | 4.01% | ||||||
9 | varanasi | 13 | 3.72% | ||||||
10 | to | 11 | 3.15% |
# | URL | Whois | Check |
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1 | https://arnasigroup.com/#about | Whois | arnasigroup.com |
2 | https://arnasigroup.com/#news | Whois | arnasigroup.com |
3 | https://arnasigroup.com/#about | Whois | arnasigroup.com |
4 | https://arnasigroup.com/#news | Whois | arnasigroup.com |
5 | https://pubs.rsc.org/en/content/articlelanding/2013/SM/C2SM27032c#!divAbstract | Whois | rsc.org |
6 | https://pubs.acs.org/doi/abs/10.1021/nn303867y | Whois | acs.org |
7 | https://www.pcimag.com/articles/103864-liquid-impregnated-surface-coatings | Whois | pcimag.com |
8 | https://varanasi.mit.edu/7-mechanism-of-frost-formation-on-lubricant-impregnated-surfaces/ | Whois | mit.edu |
9 | https://varanasi.mit.edu/3-fog-harvesting-potential-of-lubricant-impregnated-electrospun-nanomats/ | Whois | mit.edu |
10 | https://varanasi.mit.edu/2-ice-adhesion-on-lubricant-impregnated-textured-surfaces/ | Whois | mit.edu |
11 | https://varanasi.mit.edu/2-ice-adhesion-on-lubricant-impregnated-textured-surfaces/ | Whois | mit.edu |
12 | https://varanasi.mit.edu/1-dropwise-condensation-of-low-surface-tension-fluids-on-omniphobic-surfaces/ | Whois | mit.edu |
13 | https://varanasi.mit.edu/active-surfaces-ferrofluid-impregnated-surfaces-for-active-manipulation-of-droplets/ | Whois | mit.edu |
14 | https://varanasi.mit.edu/drag-reduction-using-lubricant-impregnated-surfaces-in-viscous-laminar-flow/ | Whois | mit.edu |
15 | https://varanasi.mit.edu/how-droplets-nucleate-and-grow-on-liquids-and-liquid-impregnated-surfaces/ | Whois | mit.edu |
16 | https://varanasi.mit.edu/thermocapillary-motion-on-lubricant-impregnated-surfaces/ | Whois | mit.edu |
17 | https://varanasi.mit.edu/lubricant-impregnated-surfaces-chapter-from-the-book-non-wettable-surfaces-theory-preparation-and-applications/ | Whois | mit.edu |
18 | http://varanasi.mit.edu/designing-ultra-low-hydrate-adhesion-surfaces-by-interfacial-spreading-of-water-immiscible-barrier-films/ | Whois | mit.edu |