Microscopy in a sentence

(1) Brachyprism is used in microscopy.

(2) The beamsplitters are used in microscopy.

(3) Short wavelength waves are used in microscopy.

(4) Photons can be used in fluorescence microscopy.

(5) Cacodylate is often used in electron microscopy.

(6) Thionine is often used as a stain in microscopy.

(7) Acrocentrics can be visualized using microscopy.

(8) Pilis can be visualized using electron microscopy.

(9) The quadrupole lens is used in electron microscopy.

(10) Excimers are often used in fluorescence microscopy.

Microscopy sentence

(11) The planoconvex lens is commonly used in microscopy.

(12) Ribosomes can be visualized using electron microscopy.

(13) Telomeres can be visualized using electron microscopy.

(14) Polysomes can be visualized using electron microscopy.

(15) Biofilm can be visualized using microscopy techniques.

(16) Axolemmas can be visualized using electron microscopy.

(17) Alkynes can be used as fluorescent dyes in microscopy.

(18) Cytogeneticists use microscopy to observe chromosomes.

(19) Cytodes can be visualized using microscopy techniques.

(20) Asynapses can be visualized using electron microscopy.

Microscopy make sentence

(21) Biofilms can be visualized using microscopy techniques.

(22) Chromatins can be visualized using electron microscopy.

(23) Micrometry is commonly used in the field of microscopy.

(24) Apochromats are high-quality lenses used in microscopy.

(25) Photocathodes are commonly used in electron microscopy.

(26) Confocal microscopy is a non-invasive imaging technique.

(27) Micrometers are commonly used in the field of microscopy.

(28) Synaptosomes can be visualized using electron microscopy.

(29) The quadrupole moment is used in atomic force microscopy.

(30) The researchers used electron microscopy to observe nans.

Sentence of microscopy

(31) The monosome can be visualized using electron microscopy.

(32) Lipofuscin can be detected using fluorescence microscopy.

(33) Chromatins can be visualized using microscopy techniques.

(34) Spheroplasts can be visualized using electron microscopy.

(35) The coverslip is a thin piece of glass used in microscopy.

(36) Thermionics is an important aspect of electron microscopy.

(37) The aerogel sample was analyzed using electron microscopy.

(38) The cover glass is commonly used in microscopy techniques.

(39) Telomeres can be visualized using fluorescence microscopy.

(40) The bathochrome effect is used in fluorescence microscopy.

Microscopy meaningful sentence

(41) The cover slip is a thin piece of glass used in microscopy.

(42) The foldscope is a game-changer in the field of microscopy.

(43) Alizarin is often used as a biological stain in microscopy.

(44) Spheroplasts can be visualized using microscopy techniques.

(45) Safranin is a commonly used dye in the field of microscopy.

(46) The ultramicroscope revolutionized the field of microscopy.

(47) Chromoplasts can be visualized using microscopy techniques.

(48) The ultraviolet spectrum is used in fluorescence microscopy.

(49) Osmiophilic stains are commonly used in electron microscopy.

(50) The transfections were monitored by fluorescence microscopy.

Microscopy sentence examples

(51) Fibronectin can be visualized using fluorescence microscopy.

(52) The metachromatic effect is used in fluorescence microscopy.

(53) Ultrastructures can be visualized using electron microscopy.

(54) Rugate filters are commonly used in fluorescence microscopy.

(55) Phage particles can be visualized using electron microscopy.

(56) The antique microscope antiquates the science of microscopy.

(57) Diatoms are often used in scientific research and microscopy.

(58) The collimated electron beam was used in electron microscopy.

(59) The process of lensing is crucial in the field of microscopy.

(60) The high-vacuum technique is employed in electron microscopy.

Sentence with microscopy

(61) Imagers are an integral part of modern microscopy techniques.

(62) Biophysicists use microscopy to study the structure of cells.

(63) Uranyl acetate is a common stain used in electron microscopy.

(64) Eubacteria can be identified through staining and microscopy.

(65) The foldscope has made microscopy more accessible to students.

(66) Mitotic figures can be visualized using microscopy techniques.

(67) A microtome is essential for preparing samples for microscopy.

(68) The nucleocapsids can be visualized using electron microscopy.

(69) The diffractions of electrons are used in electron microscopy.

(70) Photobleaching is a common problem in fluorescence microscopy.

Use microscopy in a sentence

(71) Synaptic vesicles can be visualized using electron microscopy.

(72) Photons can be used in microscopy to study biological samples.

(73) Ligated constructs were analyzed using fluorescence microscopy.

(74) Foldscopes have made microscopy accessible to a wider audience.

(75) The photocathode is a crucial component in electron microscopy.

(76) Confocal microscopy is used to study the morphology of tissues.

(77) The mercury arc is an efficient source of light for microscopy.

(78) The biogenous nature of the sample was confirmed by microscopy.

(79) Inclusion bodies can be visualized using microscopy techniques.

(80) Bainites can be identified using various microscopy techniques.

Sentence using microscopy

(81) The capsid of a virus can be studied using electron microscopy.

(82) Cryogenics is employed in the field of cryo-electron microscopy.

(83) The photoproduct is used as a marker in fluorescence microscopy.

(84) Chromoprotein can be used as a fluorescent marker in microscopy.

(85) Safranines are commonly used as biological stains in microscopy.

(86) The scientist used electron microscopy to visualize the virions.

(87) Acicula is a term that is often used in the field of microscopy.

(88) Analyze the structure of antherozoids using electron microscopy.

(89) Birefringences can be measured using polarized light microscopy.

(90) Axones can be studied using techniques like electron microscopy.

Microscopy example sentence

(91) Rosaniline is commonly used as a biological stain in microscopy.

(92) Photons can be used in microscopy to visualize small structures.

(93) The backscatter of electrons can be used in electron microscopy.

(94) Microscopy is a scientific technique used to study small objects.

(95) The synaptonemal complex is visualized using electron microscopy.

(96) Collodions have a long history of use in the field of microscopy.

(97) Oxyphil cells have a unique appearance under electron microscopy.

(98) Macronucleus morphology can be studied using electron microscopy.

(99) Nucleoids can be visualized using electron microscopy techniques.

(100) Retroviral particles can be visualized using electron microscopy.

Sentence with word microscopy

(101) The mountant was specifically formulated for electron microscopy.

(102) Thionine has been used as a stain for nerve tissue in microscopy.

(103) The foldscope is a great way to introduce students to microscopy.

(104) Scientists use electron microscopy to examine frustules in detail.

(105) The stomatal aperture can be measured using microscopy techniques.

(106) The inactivated virus particles were used for electron microscopy.

(107) The nanowire was used as a probe for scanning electron microscopy.

(108) Cresyl violet is a popular stain used in histology and microscopy.

(109) Pararosaniline is a dye commonly used in histology and microscopy.

(110) The capsid of a virus can be visualized using electron microscopy.

Sentence of microscopy

(111) Periodic acid is often used as a stain in histology and microscopy.

(112) Microscopy has revealed the hidden beauty of the microscopic world.

(113) The invention of microtomes revolutionized the field of microscopy.

(114) Melanosomes can be visualized using electron microscopy techniques.

(115) Electron-microscopy is a powerful tool used in scientific research.

(116) Pyrogallol is commonly used as a stain in histology and microscopy.

(117) Pseudomonad biofilms can be visualized using microscopy techniques.

(118) The gelation process can be visualized using microscopy techniques.

(119) Osmiophilic substances can be visualized using electron microscopy.

(120) Neurites can be visualized using specialized microscopy techniques.

Microscopy used in a sentence

(121) The precision of atomic force microscopy is measured in picometers.

(122) The use of fluorochrome has revolutionized the field of microscopy.

(123) Lyophilize is often used to prepare samples for electron microscopy.

(124) Microscopy has been used to study the structure and function of DNA.

(125) Metallographic analysis is often performed using optical microscopy.

(126) The foldscopes have revolutionized the field of portable microscopy.

(127) The study of infusorians dates back to the early days of microscopy.

(128) The microparticle's size distribution was analyzed using microscopy.

(129) The micromillimeter is an important unit in the field of microscopy.

(130) The pyrenoid can be visualized using electron microscopy techniques.

Microscopy sentence in English

(131) The scientist will aluminize the glass slides for better microscopy.

(132) Microfibrils can be visualized using electron microscopy techniques.

(133) Picric acid is commonly used as a stain in histology and microscopy.

(134) The bolography technique has revolutionized the field of microscopy.

(135) The nucleolar structure can be visualized using electron microscopy.

(136) Toluidine blue is a commonly used stain in histology and microscopy.

(137) The karyolymph can be visualized using various microscopy techniques.

(138) Microscopy has helped uncover the mechanisms behind various diseases.

(139) The coverslip is commonly used in both light and electron microscopy.

(140) The adsorbates were characterized using scanning electron microscopy.

(141) The spirillum's movement can be observed using time-lapse microscopy.

(142) The emission spectrum of a fluorescent dye can be used in microscopy.

(143) The microsphere is often used in microscopy to calibrate instruments.

(144) Plasmons can be used to enhance the resolution of optical microscopy.

(145) The use of biprisms in microscopy allows for high-resolution imaging.

(146) The biaxal texture of the rock was studied using electron microscopy.

(147) The oolemma can be visualized using specialized microscopy techniques.

(148) Microfossils can be analyzed using microscopy and chemical techniques.

(149) Replicative intermediates can be visualized using electron microscopy.

(150) Excimer molecules are often used as probes in fluorescence microscopy.

(151) The light spectrum is used in microscopy to visualize tiny structures.

(152) The microscopist's expertise in microscopy techniques is unparalleled.

(153) The viroid can be detected in plant tissues using electron microscopy.

(154) Archaeologists can use electron microscopy to study ancient materials.

(155) The exosporium can be visualized using electron microscopy techniques.

(156) Capsids can be visualized using techniques such as electron microscopy.

(157) Lasers are used in scientific research for spectroscopy and microscopy.

(158) The use of microphotography has revolutionized the field of microscopy.

(159) Photons can be used in imaging techniques like fluorescence microscopy.

(160) The invention of the microscope revolutionized the field of microscopy.

(161) Microscopy has been used to study the growth and development of plants.

(162) Optics is used in the field of microscopy for magnifying small objects.

(163) The diffraction of electrons is a key principle in electron microscopy.

(164) Widefield microscopy enables scientists to study large samples at once.

(165) Nucleolar dynamics can be studied using advanced microscopy techniques.

(166) A higher numerical aperture allows for better resolution in microscopy.

(167) Microcopies are used in the field of microscopy to study small objects.

(168) Confocal microscopy allows for the visualization of cellular processes.

(169) The picometre is commonly used in the field of atomic force microscopy.

(170) The coacervation process can be visualized using microscopy techniques.

(171) The interparticle forces can be visualized using microscopy techniques.

(172) The coprecipitate was characterized using scanning electron microscopy.

(173) Subcellular structures can be visualized using fluorescence microscopy.

(174) Paraformaldehyde is commonly used as a fixative in electron microscopy.

(175) The RSTED technique is a powerful tool for super-resolution microscopy.

(176) Methylene blue can be used as a stain in microscopy to visualize cells.

(177) The troilite in the rock sample was analyzed using electron microscopy.

(178) Lipofuscin accumulation can be visualized using fluorescence microscopy.

(179) The interlamellar structure can be visualized using electron microscopy.

(180) Microscopy has been used to study the structure and function of viruses.

(181) Microscopy has been used to study the structure and function of the eye.

(182) The micrometer is often used in microscopy to measure the size of cells.

(183) Let's work out the sulfate levels in this plant tissue using microscopy.

(184) Micelles can be visualized using techniques such as electron microscopy.

(185) The structure of the virion can be visualized using electron microscopy.

(186) The microstructure of bainite can be examined using electron microscopy.

(187) Dithizone is often used as a staining agent in histology and microscopy.

(188) The axonemal ultrastructure can be visualized using electron microscopy.

(189) Foldscopes have sparked a renewed interest in microscopy among students.

(190) Confocal microscopy is a powerful tool for studying cellular structures.

(191) The diffractions of electron beams are important in electron microscopy.

(192) The short wavelength of violet light is used in fluorescence microscopy.

(193) A millimeter is a common unit of measurement in the field of microscopy.

(194) Intracytoplasmic structures can be visualized using electron microscopy.

(195) Vacuolar morphology can be studied using advanced microscopy techniques.

(196) The morphologies of viruses can be visualized using electron microscopy.

(197) Bilayers can be visualized using techniques such as electron microscopy.

(198) The anelastic behavior of the material can be observed using microscopy.

(199) The cathetometer is commonly used in the field of optics and microscopy.

(200) The formation of crystals can be observed through microscopy techniques.

(201) The collimator is used to align the electron beam in electron microscopy.

(202) Microscopy has played a crucial role in medical research and diagnostics.

(203) Microscopy has been used to study the structure and function of proteins.

(204) Photobleaching is a common phenomenon observed in fluorescent microscopy.

(205) The microstructure of bainites can be analyzed using electron microscopy.

(206) Chiasmata can be visualized using techniques such as electron microscopy.

(207) Aeciospore dispersal can be studied using advanced microscopy techniques.

(208) Confocal microscopy enables the visualization of live cells in real-time.

(209) The laser diode is the primary light source in laser scanning microscopy.

(210) The atomical structure of the cell was studied using electron microscopy.

(211) The invention of ultramicroscopes revolutionized the field of microscopy.

(212) Electron-microscopy can be used to study the morphology of nanoparticles.

(213) Electron-microscopy has been used to study the structure of insect wings.

(214) Naphthyl derivatives have been used as probes in fluorescence microscopy.

(215) Galvo mirrors are commonly used in laser microscopy for scanning samples.

(216) The glycocalyx can be visualized using specialized microscopy techniques.

(217) The presence of lipofuscin can be detected using fluorescence microscopy.

(218) The development of holographs has revolutionized the field of microscopy.

(219) The microstructures of the alloy were analyzed using electron microscopy.

(220) The resolution of electron microscopy can reach down to a few picometers.

(221) The epi-illumination technique is used in microscopy to enhance contrast.

(222) The collimator is used to focus the electron beam in electron microscopy.

(223) Foci are important in microscopy, but they can also be used in astronomy.

(224) The properties of the colloid were investigated using electron microscopy.

(225) The foldscope has made microscopy accessible to people all over the world.

(226) The process of phagocytosis can be visualized using microscopy techniques.

(227) Microscopy has been used to study the structure and function of the brain.

(228) Optics is used in the field of microscopy for visualizing tiny structures.

(229) The decarburizations of the steel were analyzed using electron microscopy.

(230) The interferometric method provides high-resolution imaging in microscopy.

(231) The eutectoid transformation is often studied using microscopy techniques.

(232) The hemihedral crystal structure can be studied using electron microscopy.

(233) Interferometers are used in the field of microscopy to improve resolution.

(234) Microtomy is used to create thin slices of tissue for electron microscopy.

(235) The chromophoric compound was used as a marker in fluorescence microscopy.

(236) The sarcosomal ultrastructure can be visualized using electron microscopy.

(237) The effects of cytokinin on plant growth can be observed using microscopy.

(238) The fluorescence of flavine has been used in microscopy to stain bacteria.

(239) The conidial structure of the mold was analyzed using electron microscopy.

(240) The lyophilizers were used to prepare the samples for electron microscopy.

(241) Acarologists use advanced microscopy techniques to examine mite morphology.

(242) Intranuclear events can be visualized using advanced microscopy techniques.

(243) The piezo stack actuator is used in nanopositioning systems for microscopy.

(244) Birefringence is often utilized in the field of polarized light microscopy.

(245) The cytopathogenicity of the pathogen was confirmed by electron microscopy.

(246) The atomical structure of the neuron was studied using confocal microscopy.

(247) The examination of ultrastructures requires advanced microscopy techniques.

(248) The development of electron-microscopy revolutionized the field of biology.

(249) The structure of peptidoglycan can be visualized using electron microscopy.

(250) Macromolecules can be visualized using techniques like electron microscopy.

(251) The ionized particles can be observed using electron microscopy techniques.

(252) The bipyramidal crystal structure was determined using electron microscopy.

(253) The DNA in our cells can be visualized using various microscopy techniques.

(254) The clinopinacoid crystal structure was analyzed using electron microscopy.

(255) The scanning electron microscope has revolutionized the field of microscopy.

(256) The capsid can be studied using techniques such as cryo-electron microscopy.

(257) The biological activity of a virus can be studied using electron microscopy.

(258) Microscopy has been used to study the effects of drugs on cells and tissues.

(259) Confocal microscopy enables three-dimensional imaging of biological samples.

(260) Photocathodes are commonly used in electron microscopy for imaging purposes.

(261) Chromatinic structure can be visualized using various microscopy techniques.

(262) The structure of acrocentrics can be visualized using microscopy techniques.

(263) The optical properties of micas make them useful in the field of microscopy.

(264) The acarologist used advanced microscopy techniques to examine mite anatomy.

(265) The deconvolution technique can improve the resolution of microscopy images.

(266) The anisotropic nature of the material can be visualized through microscopy.

(267) We need to modulate out the background fluorescence in the microscopy images.

(268) The absorbencies of the nanoparticles were studied under electron microscopy.

(269) Melanosome morphology can be visualized using advanced microscopy techniques.

(270) Skyrmions can be imaged and manipulated using advanced microscopy techniques.

(271) The presence of lamellipodia can be visualized using fluorescence microscopy.

(272) Phalloidin staining is commonly used in microscopy to study the cytoskeleton.

(273) Naphthoquinone has been used as a staining agent in histology and microscopy.

(274) The use of nital is a crucial step in preparing metal samples for microscopy.

(275) The androecial features of the plant were analyzed using electron microscopy.

(276) The botuliform morphology of the virus was studied using electron microscopy.

(277) The mineral's crystalline structure was determined using electron microscopy.

(278) The coprecipitate's morphology was studied using scanning electron microscopy.

(279) Microscopy has been used in forensic investigations to analyze trace evidence.

(280) Microscopy has been used to study the effects of climate change on ecosystems.

(281) Interferometry is used in the field of microscopy to enhance image resolution.

(282) Glycolipid can be visualized using specific staining techniques in microscopy.

(283) Macromolecules can be visualized using techniques such as electron microscopy.

(284) The ultramicrotomy method has revolutionized the field of electron microscopy.

(285) The crystallographer used electron microscopy to study the crystal morphology.

(286) The polytype of this substance can be characterized using electron microscopy.

(287) Pteridology research often involves the use of advanced microscopy techniques.

(288) The helices of a DNA molecule can be visualized using fluorescence microscopy.

(289) Amyloplasts can be visualized using various staining techniques in microscopy.

(290) Intravital microscopy allows for the visualization of blood flow in real-time.

(291) The conidial structure of the pathogen was analyzed using electron microscopy.

(292) The micromorphology of the bone tissue was analyzed using electron microscopy.

(293) The aplanatic objective lens provided a sharp and focused image in microscopy.

(294) The karyolymph was fixed, and the cells were prepared for electron microscopy.

(295) Lyotropic mesophases can be characterized using electron microscopy techniques.

(296) Microscopy has been used to study the structure and function of the human body.

(297) Microscopy has been used to study the effects of radiation on living organisms.

(298) The coverslip is commonly used in educational settings for teaching microscopy.

(299) Confocal microscopy is used to study the localization of proteins within cells.

(300) Molybdic acid is commonly used as a stain for biological samples in microscopy.

(301) The biophysicist used fluorescence microscopy to visualize cellular organelles.

(302) Electron-microscopy allows scientists to visualize the ultrastructure of cells.

(303) The analysis of nannofossil samples requires specialized microscopy techniques.

(304) The use of microbeams in electron microscopy improved the resolution of images.

(305) The precision of atomic force microscopy allows for measurements in picometers.

(306) Petrography is an interdisciplinary field that combines geology and microscopy.

(307) Electron microscopy has played a crucial role in the field of forensic science.

(308) Osmiophilic materials are often used as contrast agents in electron microscopy.

(309) Intravital microscopy can help identify potential targets for drug development.

(310) Intranuclear structures can be visualized using advanced microscopy techniques.

(311) Microbial communities can be studied using microscopy and molecular techniques.

(312) The cover slip is commonly used in educational settings for teaching microscopy.

(313) Endosomes can be visualized using fluorescent markers and microscopy techniques.

(314) The interlamellar distance can be measured using advanced microscopy techniques.

(315) The team used electron microscopy to study the crystallite's internal structure.

(316) Intravital microscopy has become an essential tool in the field of neuroscience.

(317) Microscopy has been used to study the structure and properties of nanomaterials.

(318) Microscopy has been used to study the geological features of rocks and minerals.

(319) Biologists use microscopy techniques to observe and analyze cellular structures.

(320) The scientist used electron microscopy to examine the ultrastructure of osteoid.

(321) The size distribution of crystallites can be analyzed using electron microscopy.

(322) The study of thermionic emission has led to advancements in electron microscopy.

(323) Confocal microscopy is essential for studying dynamic processes in living cells.

(324) Fuchsin is often used in the preparation of biological specimens for microscopy.

(325) The presence of caseation can be seen as a characteristic feature on microscopy.

(326) The fluorescence of fluorescein can be visualized using fluorescence microscopy.

(327) Electron-microscopy has played a crucial role in the discovery of new materials.

(328) Galvo mirrors are used in laser scanning microscopy for high-resolution imaging.

(329) The researcher had to get by with chloride stains for their microscopy analysis.

(330) The crystallite morphology was characterized using scanning electron microscopy.

(331) Intravital microscopy enables the study of live organisms at the cellular level.

(332) Intravital microscopy revealed intricate cellular interactions within the tumor.

(333) Intravital microscopy allows for the visualization of cellular behavior in vivo.

(334) The microtome is used to create thin sections of tissue for electron microscopy.

(335) In electron microscopy, the electron lens plays a vital role in image formation.

(336) The photomultiplier is a key component in many types of fluorescence microscopy.

(337) Chromophoric materials are commonly used in the field of fluorescence microscopy.

(338) The heme molecule can be visualized using techniques such as electron microscopy.

(339) Osmiophilic staining is a crucial step in electron microscopy sample preparation.

(340) The cisternae of the Golgi apparatus can be visualized using electron microscopy.

(341) Intravital microscopy enables the visualization of blood flow within capillaries.

(342) The cytotoxicity of the nanoparticles was investigated using electron microscopy.

(343) Polarized light is used in optical microscopy to enhance contrast and resolution.

(344) The microstructures of ceramics were analyzed using scanning electron microscopy.

(345) The metallurgist analyzed the microstructure of metals using electron microscopy.

(346) The team used electron microscopy to visualize the fibril at a higher resolution.

(347) The presence of endolithic algae can be detected through fluorescence microscopy.

(348) The use of electron-microscopy has greatly advanced our understanding of viruses.

(349) The use of electron-microscopy has expanded our knowledge of the nanoscale world.

(350) Electron-microscopy is widely used in forensic science to analyze trace evidence.

(351) The fluorescence properties of flavine make it useful in fluorescence microscopy.

(352) Micella formation can be visualized using techniques such as electron microscopy.

(353) The trimeric state of undefined particles was observed under electron microscopy.

(354) The scientists used scanning electron microscopy to analyze electrode morphology.

(355) The development of electron microscopy has greatly advanced the field of biology.

(356) Intravital microscopy enables the study of dynamic processes in living organisms.

(357) The charge-coupled device is a key technology in the field of digital microscopy.

(358) The deconvolution technique can help improve the resolution of microscopy images.

(359) Photoelectrons are used in electron microscopy to produce high-resolution images.

(360) The photon is used in fluorescence microscopy to visualize biological structures.

(361) The optical properties of augites can be studied using polarized light microscopy.

(362) The subcellular structures can be visualized using advanced microscopy techniques.

(363) False color is often used in microscopy to enhance contrast in biological samples.

(364) Microscopy has allowed scientists to visualize the interactions between molecules.

(365) The optical properties of leucite can be studied using polarized light microscopy.

(366) The deconvolution technique is widely used in microscopy to improve image clarity.

(367) Deconvolution is an essential step in deconvolving fluorescence microscopy images.

(368) The staining properties of hematoxylin make it useful in histology and microscopy.

(369) The dichroism of the mineral sample was analyzed using polarized light microscopy.

(370) The microstructures of thin films were investigated using atomic force microscopy.

(371) The light spectrum is used in fluorescence microscopy to label specific molecules.

(372) The atomical structure of the virus was visualized using cryo-electron microscopy.

(373) The sinterability of the material was analyzed using scanning electron microscopy.

(374) The fluorescently labeled virus particles were observed under electron microscopy.

(375) The field of atomic physics has led to the development of atomic force microscopy.

(376) Intravital microscopy has revealed the impact of blood flow on tissue oxygenation.

(377) The quadrupole lens is used in electron microscopy to focus and magnify the image.

(378) The isotropic properties of the metal were investigated using electron microscopy.

(379) The karyolymph was labeled, and the cells were tracked by fluorescence microscopy.

(380) Epifluorescence microscopy is a powerful tool for visualizing cellular structures.

(381) The degree of crystallinity in the mineral was analyzed using electron microscopy.

(382) The biaxal nature of the sample made it suitable for use in polarizing microscopy.

(383) The structure of matter can be visualized using microscopy and imaging techniques.

(384) Bacteria can be identified using various methods, such as staining and microscopy.

(385) The field of bryology has expanded with the advent of modern microscopy techniques.

(386) Amyloplast can be visualized using electron microscopy to study its ultrastructure.

(387) Intravital microscopy is a powerful tool for studying biological processes in vivo.

(388) Intravital microscopy enables the visualization of cellular processes in real-time.

(389) The isotropy of a material can be visualized through techniques such as microscopy.

(390) Collimators are essential in optical microscopy for focusing light onto the sample.

(391) The microstructures of biological cells were studied using fluorescence microscopy.

(392) Methyl-violet is often used in the preparation of biological stains for microscopy.

(393) The identification of feldspathoids requires the use of polarized light microscopy.

(394) Beamsplitters are often used in microscopy to direct light to different objectives.

(395) Multiphoton microscopy is a powerful imaging technique used in biological research.

(396) The mineralogist identified the bornitic crystals using polarized light microscopy.

(397) The atomical composition of the rock sample was analyzed using electron microscopy.

(398) The resolution of electron-microscopy is much higher than that of light microscopy.

(399) The staining properties of haematoxylin make it useful in histology and microscopy.

(400) The ichthyological research lab is equipped with state-of-the-art microscopy tools.

(401) The resolution of electron microscopy is much higher than that of light microscopy.

(402) The size and distribution of polysomes can be visualized using electron microscopy.

(403) The electron beam is used in electron microscopy to magnify images of tiny objects.

(404) The team used scanning electron microscopy to analyze electrode surface morphology.

(405) The adsorbate coverage on the surface was determined using atomic force microscopy.

(406) The microstructural properties of the alloy were studied using electron microscopy.

(407) The number and position of bivalents can be visualized using microscopy techniques.

(408) The microphotometer is commonly used in the field of microscopy to analyze samples.

(409) Microscopy has been used to study the behavior of insects and other small organisms.

(410) The thermotropic response of a substance can be studied using microscopy techniques.

(411) The histologist worked in a laboratory equipped with advanced microscopy techniques.

(412) The areal density of the virus particles was determined through electron microscopy.

(413) The deconvolution technique is used in electron microscopy to enhance image details.

(414) Apoaequorin has the potential to revolutionize the field of fluorescence microscopy.

(415) Phalloidin-induced cytoskeletal changes can be visualized using confocal microscopy.

(416) The binding of ligase with DNA ends can be visualized using fluorescence microscopy.

(417) Electron-microscopy is essential in studying the structure and function of proteins.

(418) The development of haematoxylin-based stains revolutionized the field of microscopy.

(419) The femtosecond pulse is used in femtosecond microscopy to capture ultrafast events.

(420) Electron microscopy allows scientists to visualize the intricate details of viruses.

(421) Electron microscopy has been instrumental in the discovery of new types of bacteria.

(422) Electron microscopy has been used to study the effects of pollutants on plant cells.

(423) Amyloplasts can be observed using electron microscopy to study their ultrastructure.

(424) The microfibril structure of a material can be visualized using electron microscopy.

(425) The vacuum-dehydration technique is used to prepare samples for electron microscopy.

(426) The researchers used microscopy to examine the cellular structure of the hypocotyls.

(427) Interferometric imaging allows for high-resolution microscopy of biological samples.

(428) Nital is often used in conjunction with optical microscopy to analyze metal samples.

(429) The electron lens is utilized in electron microscopy to visualize biological samples.

(430) Plasmodesmata can be visualized using microscopy techniques such as confocal imaging.

(431) The ionised particles can be visualized using techniques such as electron microscopy.

(432) Microscopy has been used to analyze the composition of materials at the atomic level.

(433) The anatase crystal structure can be visualized using electron microscopy techniques.

(434) The perikaryon can be visualized using specialized staining techniques in microscopy.

(435) The researcher used electron microscopy to examine the crystallinity of the material.

(436) Safranines are commonly used in the preparation of biological samples for microscopy.

(437) The researchers investigated the semicrystalline structure using electron microscopy.

(438) The images produced by electron-microscopy are often used in scientific publications.

(439) Electron-microscopy has been used to investigate the structure of fossilized remains.

(440) Fluorophosphate dyes are commonly used in fluorescence microscopy and flow cytometry.

(441) Xanthene-based fluorescent dyes are widely used in microscopy and imaging techniques.

(442) Plasmonics has the potential to greatly improve the resolution of optical microscopy.

(443) Electron microscopy has revealed the complex organization of organelles within cells.

(444) The electron lens is crucial for achieving high magnification in electron microscopy.

(445) Thiol-based dyes are commonly used in fluorescence imaging and microscopy techniques.

(446) The charge-coupled device is widely used in microscopy for capturing detailed images.

(447) The cytocidal properties of the chemical were investigated using electron microscopy.

(448) Multiphoton microscopy is a powerful tool for imaging deep within biological tissues.

(449) The oligomeric assembly of the protein was visualized using cryo-electron microscopy.

(450) The researchers used confocal microscopy to localize glycoprotein in the lung tissue.

(451) Micelles can be visualized using techniques such as transmission electron microscopy.

(452) Intercalating dyes are commonly used in fluorescence microscopy to stain DNA and RNA.

(453) The presence of euglena in a water sample can be detected using microscopy techniques.

(454) The structure of bilayers can be visualized using techniques like electron microscopy.

(455) The cathode ray is used in fluorescence microscopy to visualize fluorescent molecules.

(456) The light spectrum is used in fluorescence microscopy to visualize specific molecules.

(457) The unique morphology of boehmite particles can be observed under electron microscopy.

(458) Safranine is often used in microscopy to enhance the visibility of certain structures.

(459) Methylene blue is commonly used in microscopy to stain cells for better visualization.

(460) Magnetic domains can be visualized using techniques such as magnetic force microscopy.

(461) Multiphoton microscopy enables imaging of live cells and tissues with high resolution.

(462) The fluorescence properties of safranines make them useful in fluorescence microscopy.

(463) The precision of atomic force microscopy requires measuring in trillionths of a meter.

(464) The coprecipitates exhibited a unique crystalline structure under electron microscopy.

(465) The motility of microorganisms can be studied using specialized microscopy techniques.

(466) The phototube is often used in fluorescence microscopy to capture fluorescent signals.

(467) The behavior of free electrons in a material can be studied using electron microscopy.

(468) The charge-coupled device is employed in fluorescence microscopy for detailed imaging.

(469) Polarizers are widely used in microscopy to enhance the clarity of microscopic images.

(470) Near-field scanning optical microscopy allows for high-resolution imaging of surfaces.

(471) The aplanat condenser lens is used in microscopy to improve illumination and contrast.

(472) The intricate designs of coccoliths make them popular subjects for microscopy and art.

(473) Polarized-light microscopy is a powerful tool for studying the structure of materials.

(474) The biaxal arrangement of the particles was observed under polarized light microscopy.

(475) The histologist used electron microscopy to visualize ultrastructural details of cells.

(476) The accuracy of atomic force microscopy is measured in terms of trillionths of a meter.

(477) Electron-microscopy has allowed researchers to observe cellular processes in real-time.

(478) The interfacial behavior of nanoparticles can be studied using atomic force microscopy.

(479) Intravital microscopy enables the study of tumor growth and metastasis in live animals.

(480) Electron-microscopy is a powerful tool for studying the structure of cells and tissues.

(481) The aeolotropic structure of the crystal lattice was determined by electron microscopy.

(482) The precision of atomic force microscopy allows for measurements at the nanometre scale.

(483) The understanding of mitosis has improved with the advancement of microscopy techniques.

(484) The cathode ray is used in electron beam microscopy to study the structure of materials.

(485) The field of microscopy has greatly advanced our understanding of the microscopic world.

(486) The palynological research team used microscopy techniques to examine pollen morphology.

(487) The microstructures of metals were characterized using transmission electron microscopy.

(488) Thiazine dyes are commonly used in histology and microscopy to stain biological samples.

(489) The observation of Brownian movement is facilitated by the use of microscopy techniques.

(490) The researcher observed the growth of spherulites over time using time-lapse microscopy.

(491) The understanding of embryogeny has improved with advancements in microscopy techniques.

(492) Microscopy remains the gold standard for identifying malaria parasites in blood samples.

(493) The microanatomical features of the bone tissue were examined using electron microscopy.

(494) The microcrystals were coated with a thin layer of gold for electron microscopy imaging.

(495) The use of epifluorescence microscopy has revolutionized the study of cellular dynamics.

(496) Cytobiology is a multidisciplinary field that combines biology and microscopy techniques.

(497) The absorption band of this substance can be used as a marker in fluorescence microscopy.

(498) Researchers used electron microscopy to study the ultrastructural features of the tissue.

(499) The microstructures of polymers were visualized using confocal laser scanning microscopy.

(500) The structure of micelles can be visualized using techniques such as electron microscopy.

(501) Multiphoton excitation is commonly used in fluorescence microscopy to reduce photodamage.

(502) Gemologists may use advanced technologies like spectroscopy and microscopy in their work.

(503) Electron-microscopy has enabled scientists to study the structure of DNA in great detail.

(504) The images obtained through electron-microscopy can be used to create 3D reconstructions.

(505) The researchers used microscopy techniques to study the cellular structure of hypocotyls.

(506) Fluorometers are commonly used in fluorescence microscopy for imaging biological samples.

(507) Electron microscopy has become an indispensable technique in the field of nanotechnology.

(508) The osmiophilic nature of the material made it suitable for electron microscopy analysis.

(509) Electron-microscopy allows us to visualize the intricate details of biological molecules.

(510) The mineralogical structure of the crystal lattice was studied using electron microscopy.

(511) Photomultipliers are often used in fluorescence microscopy to detect fluorescent signals.

(512) The scientist discovered a new virus in the blood by using advanced microscopy techniques.

(513) The laboratory sterilized all microscope slides and coverslips within the microscopy room.

(514) The electron lens is used in electron microscopy to visualize the ultrastructure of cells.

(515) The diffraction of electron beams is utilized in electron microscopy for imaging purposes.

(516) The lab technician prepared a solution with picograms of a fluorescent dye for microscopy.

(517) The researchers examined the semicrystalline structure using scanning electron microscopy.

(518) Electron-microscopy has been used to study the effects of radiation on biological tissues.

(519) The trimeric structure of undefined viruses was visualized using cryo-electron microscopy.

(520) The use of electron microscopy has revolutionized the field of materials characterization.

(521) Electron microscopy has been used to study the effects of radiation on biological tissues.

(522) Researchers used electron microscopy for a high-resolution microscopic study of the virus.

(523) The structure of capsids can be determined using techniques like cryo-electron microscopy.

(524) Intravital microscopy has provided insights into the mechanisms of immune cell activation.

(525) The presence of leucoplasts in a plant cell can be identified through electron microscopy.

(526) Epifluorescence microscopy is a powerful tool for visualizing fluorescently labeled cells.

(527) Electron microscopy allows for the visualization of ultrastructures at high magnification.

(528) Intravital microscopy allows us to observe the behavior of immune cells within lymph nodes.

(529) Microscopy has enabled scientists to observe and understand the behavior of microorganisms.

(530) The fluorescence microscopy technique allowed for the visualization of cellular structures.

(531) The use of electron-microscopy has advanced our understanding of the mechanisms of disease.

(532) The use of electron microscopy has revolutionized our understanding of nanoscale materials.

(533) The antiferromagnet's magnetic structure can be visualized using magnetic force microscopy.

(534) Kymographs can be created from data collected using various types of microscopy techniques.

(535) The use of electron-microscopy has revolutionized our understanding of the nanoscale world.

(536) Polarized-light microscopy can be used to identify the orientation of crystals in a sample.

(537) The binding of dioxin to the receptor can also be visualized using fluorescence microscopy.

(538) The karyolymph was disrupted, and the nuclear envelope was observed by confocal microscopy.

(539) Intravital microscopy allows us to observe the behavior of individual cells within a tissue.

(540) Immunofluorescence microscopy revealed the spatial organization of proteins within the cell.

(541) The conidia were detected on the surface of plant leaves using scanning electron microscopy.

(542) The trimeric structure of the protein complex was visualized using cryo-electron microscopy.

(543) The biophysicist used atomic force microscopy to visualize cellular structures at nanoscale.

(544) The crystal structure of tetradymite can be visualized using electron microscopy techniques.

(545) The field of electron-microscopy continues to evolve with the development of new techniques.

(546) The use of electron-microscopy has improved our understanding of neurodegenerative diseases.

(547) Poxviruses can be diagnosed through laboratory tests, including PCR and electron microscopy.

(548) The fluorescently labeled molecules were tracked in real-time using fluorescence microscopy.

(549) Intravital microscopy is a powerful tool for studying cellular dynamics in living organisms.

(550) College students interested in microscopy may enjoy observing heliozoans under a microscope.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Microscopy. They do not represent the opinions of TranslateEN.com.