ZAYMIDOROGOA, Oleg: Photocell (2 Articles, 6 Russian Patents)

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**[rexresearch.com](../index.htm)**

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**Oleg ZAYMIDOROGA, *et al.***

**Photocell**

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**<http://www.physorg.com/news67796415.html>**

Russian scientists have invented a battery that can capture
energy not only from the sun, but also from the stars, the head
of a research institute at the Dubna Nuclear Institute, near
Moscow, said.

"The scientists have successfully created a new substance,"
Valentin Samoilov [Samoylov] announced, "thanks to which this
battery can work on earth, independently of meteorological
conditions, using solar and stellar energy.

"This is a battery like no other," Samoilov, who head's the
Institute's center for applied research, told the Itar-Tass news
agency, explaining that it could function 24 hours a day and was
twice as effective as an ordinary solar panel at converting
light into electricity.

Moreover, Samoilov declared, the new battery was cheaper than a
solar panel.

(c) 2006 AFP

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[**http://www.dubna.ru/news/7/2006-05-25**](http://www.dubna.ru/news/7/2006-05-25)

Heteroelectric, covered by "umbrella" patent of Russian
Federation N2249277 covering 24 directions of a science and
technics, allows to carry out management of a magnetic field and
its transformation with the purpose of creation of devices and
devices with predicted optical, electric and magnetic
properties.

For the ways and devices with use heteroelectric experts JINR
Scientific Centre for Applied Research (SCAR) are received the
following patents which are not having analogues in the world:
the Amplifier electric radiation (RU2266596); the Electric
condenser and not hinged elements of integrated schemes
(RU2266585); the Mirror (RU2265870); the Way of generation of
coherent electromagnetic radiation and dipole nanolaser on its
basis (RU2249278); Optical glass (RU2209785); the Photocathode
(RU2216815); the Heterogeneous photo cell (RU2217845); the Photo
cell (RU2222846).

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**[WO2005019324](wo2005019324.pdf)**

**HETEROGENIC MATERIALS**

*Inventor:* ZAYMIDOROGA OLEG ANTONOVICH FL (RU); SAMOILOV
VALENTIN NIKOLAEVICH (RU); PROTSENKO IGOR EVGENIEVICH FLA (RU)

*Abstract* ~ In accordance with one aspect of the present
invention, there is provided a heterogenic material including a
carrier and an active ingredient introduced into it, wherein
said active ingredient is provided in the form of particles,
said particles being cluster of atoms, nano-particles or
micro-particles, said particles being of a material different
than a material of a carrier and being distributed in the
carrier in such a way that the average distance between said
particles is less than, or has the same order of magnitude as,
the cubic root of the polarisability of said particles when in
said carrier. In a further aspect of the invention there is
provided a heterogenic material including a carrier and an
active ingredient introduced into it, wherein said active
ingredient is provided in the form of particles, said particles
being cluster of atoms, nano-particles or micro-particles, said
particles being of a metal material which is different than a
material of the carrier and introduced into carrier in such a
way that there is a maximal peak in the polarisability frequency
function at a predetermined frequency corresponding to plasmon
resonance, said predetermined frequency corresponding to a
wavelength of electromagnetic radiation at which said
heterogenic material has a maximal effect, therein said
particles have size which is approximately equal to or less than
said wavelength.

![](wo1.jpg)![](wo2.jpg)![](wo3.jpg)![](wo4.jpg)

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**RU2249277**

**HETEROGENEOUS SUBSTANCE (HETEROELECTRIC) FOR ACTING ON
ELECTROMAGNETIC FIELDS**

*Abstract* ~ FIELD: electronic engineering. SUBSTANCE:
proposed substance related to materials acting on
electromagnetic fields so as to control and change them and can
be used for producing materials with preset optical, electrical,
and magnetic characteristics has in its composition
active-origin carrier in the form of clusters of atoms,
nanoparticles, or microparticles, its insulating function being
checked in the course of manufacture; this function is
characteristic controlling interaction between substance and
electromagnetic field. EFFECT: improved characteristics of
heterogeneous substance.

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**RU2266596**

**ELECTROMAGNETIC RADIATION NANOAMPLIFIER**

*Abstract* ~ FIELD: optics; coherent electromagnetic
radiation systems. SUBSTANCE: novelty is that metal, such as
silver, nanoparticles whose plasma resonance frequency is close
to frequency of transfer of mentioned active particles to
inverted population level are additionally placed in prior-art
amplifier on quantum (active) points. EFFECT: enhanced gain for
low and high strengths of fields being amplified.

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**RU2003125292**

**No English Title Available**



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**RU2265870**

**MIRROR**

*Abstract* ~ FIELD: optical industry. SUBSTANCE: mirror
can be used when producing optical reflecting systems in lasers
and experimental physics. Mirror has transparent dielectric
base. Metal coating is applied onto the base. Coating has to
nanoparticles, for example, silver nanoparticles, which have
plasma resonance at electromagnet radiation frequency. The
mirror intends to reflect the radiation. Linear dimensions are
far smaller than the radiation wavelength. Nanoparticles are
applied uniformly onto surface of the base to cover 15% of its
area. Thickness of mirror is reduced to minimal size; size of
spot of reflected radiation in focus is reduced. EFFECT: reduced
thickness of mirror; improved precision.

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**RU2249278**

**METHOD FOR GENERATING COHERENT ELECTROMAGNETIC RADIATION
AND DIPOLE NANOLASER BUILT AROUND IT**

*Abstract* ~ FIELD: electronic engineering; semiconductor
lasers for data recording, reading, and processing. SUBSTANCE:
proposed method designed to generate coherent electromagnetic
radiation and width of its spectral line for mentioned lasers
includes introduction of metal or superconductor nanoparticles
in its system of hyperfine semiconductor layers and excitation
of electrical dipole vibrations using electrons of mentioned
nanoparticles. EFFECT: greatly reduced dimensions of lasers.

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**[RU2209785](ru2209785.pdf)**

**OPTICAL GLASS**

*Abstract* ~ FIELD: glassmaking. SUBSTANCE: invention
relates to manufacturing optical glasses based on silicon oxide
matrix with filtration additives for use as light filters and
laser optics elements. Transparent matrix includes uniformly
distributed filtration additives composed of a set of uniformly
distributed differently shaped metal nanoparticles with linear
dimensions much lesser than wavelengths of absorbed spectrum
bands, concentration of these particles being (1-3).10-5 volume
portions. Particular types of optical glass are those
transmitting visible spectrum region and infrared spectrum
region wherein indicated sets of metal (e.g., silver)
nonaparticles are shaped as nanorods with length-to-diameter
ratio 2.5-5.0 and as nanodisks with thickness-to diameter ratio
0.2-0.95. EFFECT: lowered glass melting temperature, essentially
increased steepness of absorption curve and narrowed borders of
boundary regions allowing use of the glass in filters
selectively absorbing one or several optical emission bands.

![](9785.jpg)

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**[RU2216815](ru2216815.pdf)**

**PHOTOCATHODE**

*Abstract* ~ FIELD: electrical and radio engineering.
SUBSTANCE: technical result of invention lies in increase of
quantum yield of photoelectrons to 60- 70% in maximum in visible
region of spectrum. To achieve this technical result layer of
semiconductor with p-n junction deposited on surface of glass
flask of photoelectric multiplier facing vacuum was implanted
with nanoparticles of metal with linear dimensions under 100 nm
homogeneously distributed over its surface with concentration of
mentioned nanoparticles in layer amounting to (1/5)10-2 volume
fractions. EFFECT: increased quantum yield of photoelectrons.

![](6815.jpg)

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**[RU2217845](ru2217845.pdf)**

**HETEROGENEOUS PHOTOCELL**

*Abstract* ~ FIELD: solar photocells. SUBSTANCE: proposed
photocell depending for its operation on conversion of
electromagnetic light flux energy into electrical energy has
operating efficiency as high as 60 - 70% at resonant frequency
maximum due to introduction of metal nanoparticles measuring
10-30 nm into its photosensitive layer, concentration of
mentioned nanoparticles in mentioned layer being (1-10)10-2
volume fractions. EFFECT: enhanced efficiency of photocell.

![](7845.jpg)

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**[RU2222846](ru2222846.pdf)**

**PHOTOCELL**

*Inventor:* ZAJMIDOROGA O A (RU); PROTSENKO I E (RU);
SAMOJLOV V N (RU)

*Abstract* ~ FIELD: electromagnetic energy conversion into
electrical energy; solar photocells. SUBSTANCE: proposed
photocell that functions to convert electromagnetic energy of
specified spectral range into electrical energy has metal plate
carrying n and p semiconductor layers with p-n junction in-
between and transparent electricity conducting layer.
Additionally introduced in mentioned n semiconductor layer are
metal nanoparticles whose size is smaller than wavelength of
mentioned radiation at concentration of (1-5).10-2 inclusion
volume fractions of mentioned nanoparticles in mentioned layer.
EFFECT: enhanced efficiency of photocell.

![](2846.jpg)

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**RU2004104996**

**No English title available**



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