XPost: rec.travel.world
Dr. Sherri Tenpenny Explains How
the Depopulation COVID Vaccines Will Start
Working In 3-6 Months !
https://beforeitsnews.com/health/2021/02/dr-sherri-tenpenny-explains-how-the-depopulation-covid-vaccines-will-start-working-in-3-6-months-must-video-3037796.html
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ALEX JONES / INFOWARS:
Top EU Scientist Warns COVID-19 Vaccine Linked To Sterilization of Women
https://banned.video/watch?id=5fcc2f89e6fa5b6587c808dc
https://www.zerohedge.com/political/alaska-health-worker-had-serious-allergic-reaction-pfizer-vaccine-rollout-suffers-hiccups
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BBC NEWS
COVID: AUSTRALIAN VACCINE ABANDONED OVER FALSE H.I.V. RESPONSE.
* FIVE (5) DIFFERENT VIRUSES
SPLICED ONTO CORONAVIRUS.
H.I.V. BEING ONE OF THOSE VIRUSES.
H.I.V. -- DELIVERY SYSTEM
https://banned.video/watch?id=5fd3ecca7db9227957c4b2d0
N.Y.F.D. / HIGHER I.Q. ——> (silent dummies) HAWAII FIREMAN WILL GET THE JAB
https://www.bing.com/search?q=NEW+YORK+FIREMAN+REFUSE+VACCINATION&form=QBLH&sp=-1&pq=&sc=8-0&qs=n&sk=&cvid=DEF12D49079B4DE898BCFDD8B0EAFEA6
COVID-19,
JELLY FISH GENES HYDROGEL
THE WHOLE SINISTER EVIL WICKED PLOT IS:
'CHINESE' [2010]
First published on 9th October 2010
Jellyfish gel and its hybrid hydrogels with high mechanical strength†
Xuezhen Wang a, Huiliang Wang *a and Hugh R. Brown b
aCollege of Chemistry, Beijing Normal University, Beijing, 100875, P.R.
China. E-mail:
wanghl@bnu.edu.cn; Fax: +86 10 58802075; Tel: +86 10 58808081 bARC Centre of Excellence for Electromaterials Science, Engineering Faculty, University of Wollongong, NSW 2522, Australia. E-mail:
hbrown@uow.edu.au; Received 6th July 2010 , Accepted 23rd August 2010
https://pubs.rsc.org/en/content/articlehtml/2011/sm/c0sm00632g
We fabricate a new type of hybrid hydrogel by introducing a synthetic
hydrogel into a biological hydrogel which is directly obtained from an
animal body. The biological hydrogel has a well-developed structure
and relatively high mechanical strength, the synthetic hydrogel formed
in the biological hydrogel might have a microstructure different to normal hydrogels. We anticipate that the combination of the two may offer a substantial increase in mechanical strength of the hybrid hydrogel.
In this work, we studied the microstructure and the mechanical properties
of a biological gel—the mesogloea of an edible jellyfish Rhopilema e
sculenta Kishinouye (hereafter referred to as JF gel)—and fabricated the hybrid hydrogels of the JF gel and synthetic gel using a radiation-induced polymerization and crosslinking method.
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