This is not about me, this is about protecting the children of today and of tomorrow.

Please understand me.

God bless you all.

Red-pilled and mind-blown by Eustace Mullins books, once upon a time... One foot down the rabbithole, one foot on The High Road.

In response The Mac to his Publication

5:5 friend

Red-pilled and mind-blown by Eustace Mullins books, once upon a time... One foot down the rabbithole, one foot on The High Road.

🙏🏻❤️🕯🕊

In response The Mac to his Publication

Intense sensitivity to sound is a common autism symptom. Loud noises may be painful. The din of a city street or a mall can be too much. When overwhelmed, people on the autistic spectrum may cover their ears to try to block out the noise.

In response The Mac to his Publication

Ultrasound examinations during pregnancy expose the fetus to a sound as loud as that made by a subway train coming into a station, say US researchers. But doctors do not think the experience causes a baby any lasting harm.

In response The Mac to his Publication
In response The Mac to his Publication
In response The Mac to his Publication

Photon upconversion is the sequential absorption of two or more long wavelength photons leading to the emission of a photon with a shorter wavelength. The fact that the emission is at a shorter wavelength than the excitation light makes upconversion distinct from other forms of photoluminescence such as fluorescence and phosphorescence where the emission always occurs at a longer wavelength (see Stokes Shift), and upconversion luminescence is therefore also known as anti-Stokes fluorescence.

In response The Mac to his Publication

Upconversion occurs through the sequential absorption of photons and is usually considered distinct from two-photon absorption processes where the photons are absorbed simultaneously.
Upconversion has many important medical and technological applications such as improved biological imaging and sensing using upconversion nanoparticles,1 enhancing the light-harvesting of solar cells,2 and deeper tissue penetration in photodynamic therapy for cancer treatment,3 amongst others.

In response The Mac to his Publication

Nanocarriers designed for delivery are able to bypass biological barriers, such as cell membranes and the blood–brain barrier, and can be loaded with high drug concentrations of therapeutics to be released.

Once the target site is reached, therapeutic drugs must be delivered from the nanocarrier in order to become bioavailable and aid the regeneration process (Qiu and Park, 2001).

In response The Mac to his Publication

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In response The Mac to his Publication

Passive processes, such as diffusion, particle erosion, particle degradation, and polymer swelling, can control the release (Mudshinge et al., 2011). The nanoplatform has to be stable enough to promote controlled release of cargo exclusively when triggering (Loomis et al., 2011; Wong and Choi, 2015). Interestingly, the delivery can be activated using in vivo signals, such as pH (Bigall et al., 2011; Sato et al., 2011), ion concentration, redox potential (Kang et al., 2010; Luo et al., 2011), presence of certain enzymes (de la Rica et al., 2012), and temperature (Kim and Lee, 2004).

In response The Mac to his Publication

Exogenous triggering using nanomaterials responsive to light (Byoung-chan and Kun, 2012),

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