Just smiling.

Merry Xmas.

FULL faith in Jesus Christ! Trump Loyalist. JFK fan. Blessed to be part of The Great Awakening. WWG1WGA! #FamilyIsEverything #TRUMP2023

In response The Mac to his Publication

From Bob Dylan’s Theme Time Radio Hour Yuletide Extravaganza Edition:


“Christmas was abbreviated to “Xmas” because X is not the Roman letter X, but the Greek letter “Chi”, it stands for the first letter of Christmas. The abbreviation became popular during the day when type was set by hand and when it was easier to put one letter to represent Christ.. no disrespect was intended.”

Merry Xmas, Patriot 🙏

In response Whites QWall to his Publication

A/C hi

A/C hr is t mas

In response The Mac to his Publication

When the AC is oscillating in the range of 3 kHz to 300 GHz it is referred to as radio frequency (RF). Thus, all RF is AC, but not all AC is RF. Ultimately, ions are controlled and measured in a mass spectrometer through the application of DC and AC, often in the RF range.

In response The Mac to his Publication

😉👉🏻❤️

Love life, why am I here, why did I find you? 💖🌠✨WWG1WGA 🇺🇸 🌎💗

In response The Mac to his Publication

Interesting, I was just on Ebay searching for a HZ meter (if such a thing) so I can check the collection of music I have and discard the discord. 😎

In response Sarah Sunday ⭐ to her Publication

Smartphones are playing an increasing role in the sciences, owing to the ubiquitous proliferation of these devices, their relatively low cost, increasing processing power and their suitability for integrated data acquisition and processing in a ‘lab in a phone’ capacity. There is furthermore the potential to deploy these units as nodes within Internet of Things architectures, enabling massive networked data capture.

In response The Mac to his Publication

Hitherto, considerable attention has been focused on imaging applications of these devices. However, within just the last few years, another possibility has emerged: to use smartphones as a means of capturing spectra, mostly by coupling various classes of fore-optics to these units with data capture achieved using the smartphone camera. These highly novel approaches have the potential to become widely adopted across a broad range of scientific e.g., biomedical, chemical and agricultural application areas. In this review, we detail the exciting recent development of smartphone spectrometer hardware, in addition to covering applications to which these units have been deployed, hitherto. The paper also points forward to the potentially highly influential impacts that such units could have on the sciences in the coming decades.

The authors go on to anticipate telemedicine for global healthcare, mediated via mobile phones. A more recent review of the field has tracked how the Moore’s law type, doubling every two years or so, of the Megapixel count of phone cameras, has expedited the uptake of smartphone imaging in microscopy (fluorescence, dark-field and bright-field), enabling imaging and detection of individual viruses and single DNA molecules [2]. In terms of point of care applications, eye health has featured too, in particular involving an adapter attached to a smartphone camera, to enable imaging of the optic nerve and retina, which is of importance in the diagnosis and monitoring of a variety of conditions including glaucoma, macular degeneration, hypertension and malaria. In an exciting recent development, this technology has been applied in a Kenyan context, with a view to expanding the reach of eye care in the developing world [3,4] (Figure 1).

In response The Mac to his Publication

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In response The Mac to his Publication

Here we show that liposomes containing calcium, adenosine triphosphate, or carboxyfluorescein are tethered to plasmon-resonant hollow gold nanoshells (HGN) tuned to absorb light from 650–950 nm. Picosecond pulses of near infrared (NIR) light provided by a two-photon microscope, or by a stand-alone laser during flow through microfluidic channels, trigger contents release with spatial and temporal control. NIR light adsorption heats the HGN, inducing vapor nanobubbles that rupture the liposome, releasing cargo within milliseconds.

In response The Mac to his Publication

21 May 2020 — The large S protein within the SARS-CoV-2 lipid membrane is essential for the virus to attach to and enter uninfected cells

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