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1 min ago


Best Electric Fireplaces With Mantels

Electric fireplaces bring warmth (both temperature and atmosphere) to living spaces without the mess of logs or ashes. They're also more efficient in energy use than wood-burning fireplaces and come with multiple flame and heat settings.

The way the fireplace will be used and where it will be used determine the type to buy. We've compiled the top electric fireplaces with mantels to help you stay cozy this season.

Real Flame Silverton Electric Fireplace

The Real Flame Silverton is a free-standing electric fireplace with a modern design and is perfect for any room. The stylish fireplace includes a mantel, firebox with log set and hardware as well as an adjustable thermostat as well as a remote control. It can provide supplemental heat to rooms up to 1,000 square foot or can be used without a heater to create a tranquil ambience throughout the year.

The flame display in this electric fireplace has been designed to look as authentic as possible, with a flickering effect and crackling sound effects. Some models also have a heat-producing fan to generate warm air in the room which can be controlled from your smartphone or remote. In addition, the Silverton comes with an easy-to-use power outlet built-in that makes it simple to connect any device that requires electricity.

Many electric fireplaces feature innovative technology that can provide an immersive experience. For example, the Magikflame fireplace is able to replicate and project up to 30 different styles of flames and brightness levels, in addition to ambient sounds and other relaxing nature sounds. It also comes with Bluetooth connectivity, so you can alter the settings from your mobile device.

Electric fireplaces are also more secure and efficient than wood-burning models. Since they don't rely on any kind of fossil fuels, they're an excellent alternative to traditional fireplaces for environmentally conscious homeowners. Additionally, they have an automatic shut-off feature that prevents any injuries or accidents from occurring.

These devices not only provide warmth and a beautiful ambience, but also enhance air quality. Some models come with a heat-generating fan that will circulate the air in your home, which will aid in breathing more easily during the colder months. They also help reduce dust in your home.

Electricity is a form of green energy that is becoming increasingly popular as people are more concerned about decreasing their carbon footprint. With this in mind, many people have begun to replace traditional fireplaces with electric models. As opposed to wood-burning or gas-burning fireplaces electric fireplaces do not require vents, and they can be installed anywhere in your home. Electric fireplaces are an excellent alternative for those who desire the beauty of a fire but are limited in space or budget.

Dimplex Featherston Electric Fireplace

This fireplace can bring a sense of ambiance to any space all year long. It comes with the patented LED inner glowing logs and pulsating embers. Operates quietly and safely without any harmful emissions or particles, and operates at 100% efficiency. Connect the DFR2651L into any standard 120V outlet to instantly create ambiance. The Featherston fireplace mantel kit offers an elegant rustic look that works well in cottages, cabins and modern homes.

The multi-function remote lets you to control every aspect of your fire, including effects of the flame, the heat, and settings. You can alter the flames using several themes, or even a prism mode that changes the color. Set the desired temperature to warm rooms upto 1,000 sq. It displays the temperature settings, sleep times and special functions.

The Featherston fireplace blends technology and artistry for an organic, rustic look that creates the feel of a mountain lodge. The warm wood accents of the mantel and header brackets complement the ledge rock design with its architectural style. The GDS26-1152LR is a firebox that plugs into any 120V standard household electrical outlet. It also features Dimplex its own LED flame technology which provides stunning color and realism. A multi-function remote control with a floating display allows you to see the settings and special features like the sleep timer or selection of colors.

Best Choice Products Electric Fireplace Mantel

The Best Choice Products electric fireplace has a mantel, resin logs, and an authentic flame effect that we like. Its heater has multiple heat settings and offers additional warmth for rooms up to 1,000 square feet. The remote control lets you to alter the settings and turn on/off the heat. It comes with an safety feature that turns off the fireplace if it becomes too hot.



Wall-mounted electric fireplaces are less difficult to install than models that stand alone, as they don't require chimneys or wood stacks to support. The majority of electric fireplaces require little or no maintenance since they don't need to replace the wood or clean the hearth. They don't release ash, smoke or other pollutants that can irritate asthmatic or other respiratory patients.

A few of our most loved electric fire places have advanced features, such as LED lighting and holographic technology. For example the MagikFlame HoloFlame wall mantel fireplace comes with advanced holographic technology that gives the user a 3D representation of flames that simulate. The simple controls are easy to comprehend. This fireplace is sleek and complements different styles of rooms. It can also be used as a part of décor when it is not being used.

Another option is an electric fireplace insert. These are designed to slide into a fireplace opening and can be installed by a handy homeowner or contractor. They're usually a bit more expensive than free-standing units, but they offer superior heating performance and are easy to operate. In contrast to most electric fireplaces however, they can't be used as a primary source of heat and must be paired with another heating system in your home.

Finally we would like to mention that some of our top wall-mounted electric fireplaces are intelligent and can be integrated into your home's existing ecosystem. The Touchstone Sideline Smart Electric Fireplace can be connected to your home's Wi Fi and comes with an app for mobile devices that allows you to control the unit remotely. It also comes with a voice-activated feature that is compatible with Amazon Alexa and Google Assistant devices. The fireplace offers multiple options for setting the brightness of the flame and flicker speed, so you can customize its appearance.

Best Choice Products Electric Fireplace With Bookcases

Think about the Top Choice Products Electric Fireplace 50'' if you want to give a warm and inviting look to your room with a wall-mounted fireplace. It has sleek, black glass finish and bright LED lights to create real flame effects. https://click4r.com/posts/g/18239089/the-step-by-step-guide-to-choosing-the-right-wall-mantel-electric-fir can heat up to 400 square feet of space and has a variable temperature control. It also has an ambient sound feature that plays soothing nature sounds or ocean waves to aid in relaxing.

One of the things that makes this electric fireplace with mantel stand out is its built-in touchscreen technology, which offers additional convenience and utility. It has the same touchscreen as your smartphone. You can use an app or even your voice control the features and settings. With the remote control, you can adjust the color of the flame and logs, as well as the timer from any room. With its sleek, smooth exterior, this fireplace is safe for children and pets who are allowed to be around.

High-end brands like MagikFlame which utilizes advanced technology like holographic and LCD displays are revolutionizing the market. The latest models offer a more realistic experiences.

When you are choosing an electric fireplace, be sure you read the specifications to find out if it meets your requirements. It is also important to know how much space you have and how often you plan to use it. You'll want to make sure that the fireplace will provide warmth without the fireplace becoming too hot or causing any safety concerns.

Another factor to consider is how it is easy to install an electric fireplace with mantel. While some models require a professional to install, others can be assembled by a do-it-yourselfer. Make sure you follow the manufacturer's step by step assembly instructions. Make use of an outlet that is dedicated instead of the power strip. These can overheat, and cause fires.

Join Click4r, the best blogging platform to create your own blogs for free in India! Publish anonymous, auto & private blogs on the top blogspot site. Start now!

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1 min ago


The addition of an electron-deficient reagent such as 2,6-dichloro-1,4-benzoquinone suppressed this isomerization in the case of both Z- and E-PB and PI. Ion mobility spectrometry-mass spectrometry (IMS-MS) and energy-resolved tandem mass spectrometry (ERMS) analyses confirmed a successful isomerization suppression. For comparing the results obtained by depolymerization with classical methods for polymer analysis, pyrolysis-comprehensive two-dimensional gas chromatography/mass spectrometry (Py-GC × GC-MS), atmospheric solid analysis probe (ASAP), and direct inlet probe-atmospheric pressure chemical ionization (DIP-APCI) analyses were performed on the same polymers. This strategy can be applied on a variety of synthetic and natural not yet characterized polymers.Battery safety is an ever-increasing significance to guarantee consumer's safety. Reducing or preventing the risk of battery fire and explosion is a must for battery manufacturers. Major reason for the occurrence of fire in commercial lithium-ion batteries is the flammability of conventional organic liquid electrolyte, which is typically composed of 1 M LiPF6 salt and ethylene carbonate (EC)-based organic solvents. Herein, we report the designed 1 M LiPF6 and EC-based nonflammable electrolyte including methyl(2,2,2-trifluoroethyl)carbonate, which breaks the conventional perception that EC-based liquid electrolyte is always flammable. The designed electrolyte also provides high anodic stability beyond the conventional charge cut-off voltage of 4.2 V. A graphite∥LiNi0.6Co0.2Mn0.2O2 lithium-ion full cell with our designed EC-based nonflammable electrolyte with a small fraction of vinylene carbonate additive under an aggressive condition of 4.5 V charge cut-off voltage, 0.5C rate, and 45 °C exhibits increased capacity, reduced interfacial resistance, and improved performance and rate capability. A basic understanding of how a high-voltage cathode-electrolyte interface and anode-electrolyte interface are stabilized and how failure modes are mitigated by fire-preventing electrolyte is discussed.The titratable acidity, alkalinity, and carboxylate content are fundamental properties required for the understanding of aqueous chemical systems. Here, we present a set of new methods that allow these properties to be determined directly by 1H NMR without the labor, cost, and sample quantity associated with running separate potentiometric or conductometric titrations. Our methods require only the measurement of the pH-sensitive 1H chemical shifts of indicator molecules and do not require the tedious titration of reagents into a sample. To determine the titratable acidity, an excess of 2-methylimidazole (2MI) is added to a sample and the quantity of protons absorbed by 2MI is determined from its 1H chemical shifts. The titratable alkalinity of a sample can be similarly determined using acetic acid. To determine the concentration of deprotonated carboxylates, a sample is acidified with HCl, and the quantity of H+ absorbed is determined from the 1H chemical shift of methylphosphonic acid. We validate our methods by demonstrating the measurement of the acidity of fruit-flavored drinks, the alkalinity of tap water, and the carboxylate content of nanocellulose dispersions.Semiconducting carbon nanotube (CNT) networks exhibit electrical, mechanical, and chemical properties attractive for thin-film applications, and printing allows for scalable and economically favorable fabrication of CNT thin-film transistors (TFTs). https://www.selleckchem.com/products/ml324.html However, device-to-device variation of printed CNT-TFTs remains a concern, which largely stems from variations in printed CNT thin-film morphology and resulting properties. In this work, we overcome the challenges associated with printing uniformity and demonstrate an aerosol jet printing process that yields devices exhibiting a hole mobility of μh = 12.5 cm2/V·s with a relative standard deviation as small as 4% (from over 38 devices). The enabling factors of such high uniformity include control of the CNT ink bath temperature during printing, ink formulation with nonvolatile and viscosifying additives, and a thermal treatment for polymer removal. It is discovered that a low CNT ink temperature benefits aerosol jet printing uniformity and stability in both short-term (∼1 min) and long-term (∼1 h) printing settings. These findings shed light on the effect of a commonly overlooked dimension of CNT aerosol jet printing and provide a practical strategy for large-scale, high-consistency realization of CNT-TFTs.Dysregulation of cellular ribose uptake can be indicative of metabolic abnormalities or tumorigenesis. However, analytical methods are currently limited for quantifying ribose concentration in complex biological samples. Here, we utilize the highly specific recognition of ribose by ribose-binding protein (RBP) to develop a single-protein ribose sensor detectable via a sensitive NMR technique known as hyperpolarized 129Xe chemical exchange saturation transfer (hyper-CEST). We demonstrate that RBP, with a tunable ribose-binding site and further engineered to bind xenon, enables the quantitation of ribose over a wide concentration range (nM to mM). Ribose binding induces the RBP "closed" conformation, which slows Xe exchange to a rate detectable by hyper-CEST. Such detection is remarkably specific for ribose, with the minimal background signal from endogenous sugars of similar size and structure, for example, glucose or ribose-6-phosphate. Ribose concentration was measured for mammalian cell lysate and serum, which led to estimates of low-mM ribose in a HeLa cell line. This highlights the potential for using genetically encoded periplasmic binding proteins such as RBP to measure metabolites in different biological fluids, tissues, and physiologic states.The process complexity, limited stability, and distinct synthesis and dispersion steps restrict the usage of multicomponent metal oxide nanodispersions in solution-processed electronics. Herein, sonochemistry is employed for the in situ synthesis and formulation of a colloidal nanodispersion of high-permittivity (κ) multicomponent lanthanum zirconium oxide (LZO La2Zr2O7). The continuous propagation of intense ultrasound waves in the aqueous medium allows the generation of oxidant species which, on reaction, form nanofragments of crystalline LZO at ∼80 °C. Simultaneously, the presence of acidic byproducts in the vicinity promotes the formulation of a stable as-prepared LZO dispersion. The LZO thin film exhibits a κ of 16, and thin-film transistors (TFTs) based on LZO/indium gallium zinc oxide operate at low input voltages (≤4 V), with the maximum mobility (μ) and on/off ratio (Ion/Ioff) of 5.45 ± 0.06 cm2 V-1 s-1 and ∼105, respectively. TFTs based on the compound dielectric LZO/Al2O3 present a marginal reduction in leakage current, along with enhancement in μ (6.

1 min ago


pharmaceuticals for diagnosis and treatment and collaborations with other scientific fields.
Diffusion-weighted whole-body MRI (DW-MRI) is increasingly used in the management of multiple myeloma (MM) patients, but data regarding the prognostic role of DW-MRI imaging response after treatment are lacking. The Myeloma Response Assessment and Diagnosis System (MY-RADS) imaging recommendations recently proposed the criteria for response assessment category (RAC) with a 5-point scale in order to standardize response assessment after therapy, but this score still needs to be validated.

We investigated the prognostic role of RAC criteria in 64 newly diagnosed MM patients after autologous stem cell transplantation (ASCT), and we combined the results of MY-RADS with those of minimal residual disease (MRD) assessment by multiparametric flow cytometry (MFC).

Superior post-ASCT PFS and OS were observed in patients with complete imaging response (RAC1), with respect to patients with imaging residual disease (RAC≥2) median PFS not reached (NR) versus 26.5 months, p=0.0047, HR 0.28 (95% CI 0.12-0.68); 3-year post-ASCT OS 92% versus 69% for RAC1 versus RAC ≥2, respectively, p=0.047, HR 0.24 (95% CI 0.06-0.99). Combining MRD and imaging improved prediction of outcome, with double-negative and double-positive features defining groups with excellent and dismal PFS, respectively (PFS NR vs. 10.6months); p=0.001, HR 0.07 (95%CI 0.01-0.36).

The present study supports the applicability of MY-RADS recommendations after ASCT; RAC criteria were able to independently stratify patients and to better predict their prognosis and the combined use of DW-MRI with MFC allowed a more precise evaluation of MRD.
The present study supports the applicability of MY-RADS recommendations after ASCT; RAC criteria were able to independently stratify patients and to better predict their prognosis and the combined use of DW-MRI with MFC allowed a more precise evaluation of MRD.This study develops a novel strategy for regenerative therapy of musculoskeletal soft tissue defects using a dual-phase multifunctional injectable gelatin-hydroxyphenyl propionic acid (Gtn-HPA) composite. The dual-phase gel consists of stiff, degradation-resistant, ≈2-mm diameter spherical beads made from 8 wt% Gtn-HPA in a 2 wt% Gtn-HPA matrix. The results of a 3D migration assay show that both the cell number and migration distance in the dual-phase gel system are comparable with the 2 wt% mono-phase Gtn-HPA, but notably significantly higher than for 8 wt% mono-phase Gtn-HPA (into which few cells migrated). The results also show that the dual phase gel system has degradation resistance and a prolonged growth factor release profile comparable with 8 wt% mono-phase Gtn-HPA. In addition, the compressive modulus of the 2 wt% dual-phase gel system incorporating the 8 wt% bead phase is nearly four-fold higher than the 2 wt% mono-phase gel (5.3 ± 0.4 kPa versus 1.5 ± 0.06 kPa). This novel injectable dual-phase Gtn-HPA composite thus combines the advantages of low-concentration Gtn-HPA (cell migration) with high-concentration Gtn-HPA (stiffness, degradation resistance, slower chemical release kinetics) to facilitate effective reparative/regenerative processes in musculoskeletal soft tissue.Sensitive immunoassays are required for troponin, a low-abundance cardiac biomarker in blood. In contrast to conventional (analog) assays that measure the integrated signal of thousands of molecules, digital assays are based on counting individual biomarker molecules. Photon-upconversion nanoparticles (UCNP) are an excellent nanomaterial for labeling and detecting single biomarker molecules because their unique anti-Stokes emission avoids optical interference, and single nanoparticles can be reliably distinguished from the background signal. Here, the effect of the surface architecture and size of UCNP labels on the performance of upconversion-linked immunosorbent assays (ULISA) is critically assessed. The size, brightness, and surface architecture of UCNP labels are more important for measuring low troponin concentrations in human plasma than changing from an analog to a digital detection mode. Both detection modes result approximately in the same assay sensitivity, reaching a limit of detection (LOD) of 10 pg mL-1 in plasma, which is in the range of troponin concentrations found in the blood of healthy individuals.Imaging-guided local therapy is the most effective strategy to treat primary cancers in patients. However, the local therapeutic effect should be further improved under the premise of absence of induction of additional side effects. It would be meaningful to analyze the potential assistance of nuclear imaging to the follow-up treatments. In this study,cancer-targeted copper sulfide nanoparticles with 99m Tc labeling (99m Tc-M-CuS-PEG) are prepared using-cancer cell membranes as a synthesis reactor and applied for the potential single-photon emission computed tomography/photoacoustic imaging-guided and 99m Tc-amplified photothermal therapy of cancer. Owing to the homologous targeting capability of the cancer cell membrane, M-CuS-PEG selectively accumulates in homologous tumor sites. After labeling with 99m Tc, M-CuS-PEG with a high near-infrared light absorbance can realize bimodal imaging-guided photothermal therapy of cancer. https://www.selleckchem.com/products/art558.html Furthermore, the labeled 99m Tc significantly enhances the cell uptake of M-CuS-PEG by inducing G2/M arrest of the cell cycle, further improving the photothermal antitumor effect, which is positively correlated with endocytosis of the photothermal conversion reagent. Therefore, a novel cancer-targeted theranostic nanoplatform is developed and it is revealed that the labeled 99m Tc can not only guide but also amplify the subsequent therapy of cancer, providing a conceptual strategy for cancer theranostics with a high biosafety.Organic-inorganic halide perovskites have demonstrated significant light detection potential, with a performance comparable to that of commercially available photodetectors. In this study, a general design guideline, which is applicable to both inverted and regular structures, is proposed for high-performance perovskite photodiodes through an interfacial built-in electric field (E) for efficient carrier separation and transport. The interfacial E generated at the interface between the active and charge transport layers far from the incident light is critical for effective charge carrier collection. The interfacial E can be modulated by unintentional doping of the perovskite, whose doping type and density can be easily controlled by the post-annealing time and temperature. Employing the proposed design guideline, the inverted and regular perovskite photodiodes exhibit the external quantum efficiency of 83.51% and 76.5% and responsivities of 0.37 and 0.34 A W-1 , respectively. In the self-powered mode, the dark currents reach 7.

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“We’re eating sick meat … but why are we doing this? MONEY.” — Mark Kastel, Organic Eye

Watch the entire ‘Defender In-Depth’ episode on #CHDTV ?

https://live.childrenshealthdefense.org/chd-tv/shows/defender-in-depth/usda-approves-plant-grown-meat-protein-duplicate-show-page/?utm_source=sovren&utm_medium=social&utm_campaign=chdtvpromo&utm_id=20240603

The popular fast-food restaurant @ChickfilA is serving up more than chicken to their customers. In recent lab testing, the restaurant’s chicken was found to contain nicarbazin, a bird contraceptive, once prohibited for use. Moms Across America founder Zen Honeycutt sends shockwaves across the internet as she exposes the “fowl” truth on #CHDTV.

“This aviary contraceptive cannot be given to egg-laying chickens because it prevents them from laying eggs,” explained Honeycutt. “So, my question is, what is it doing to the American public to have an aviary contraceptive in chicken sandwiches … ?”

WATCH + SHARE the full episode with Zen Honeycutt on #CHDTV ?

https://live.childrenshealthdefense.org/chd-tv/shows/good-morning-chd/shocking-fast-food-testing-results-with-zen-honeycutt/

On this episode of The Cost of Everything, we compare GMOs with organically grown plants to see if organic is actually better and worth the extra cost. Does the consumer or grower benefit more from GMOs or organic products? Host Christ Ai takes a closer look at what it costs to produce and purchase GMO products vs. non-GMO products with agricultural researcher Robert L. Paarlberg.

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Sorry, no results were found.

Videos

“We’re eating sick meat … but why are we doing this? MONEY.” — Mark Kastel, Organic Eye

Watch the entire ‘Defender In-Depth’ episode on #CHDTV ?

https://live.childrenshealthdefense.org/chd-tv/shows/defender-in-depth/usda-approves-plant-grown-meat-protein-duplicate-show-page/?utm_source=sovren&utm_medium=social&utm_campaign=chdtvpromo&utm_id=20240603

The popular fast-food restaurant @ChickfilA is serving up more than chicken to their customers. In recent lab testing, the restaurant’s chicken was found to contain nicarbazin, a bird contraceptive, once prohibited for use. Moms Across America founder Zen Honeycutt sends shockwaves across the internet as she exposes the “fowl” truth on #CHDTV.

“This aviary contraceptive cannot be given to egg-laying chickens because it prevents them from laying eggs,” explained Honeycutt. “So, my question is, what is it doing to the American public to have an aviary contraceptive in chicken sandwiches … ?”

WATCH + SHARE the full episode with Zen Honeycutt on #CHDTV ?

https://live.childrenshealthdefense.org/chd-tv/shows/good-morning-chd/shocking-fast-food-testing-results-with-zen-honeycutt/

On this episode of The Cost of Everything, we compare GMOs with organically grown plants to see if organic is actually better and worth the extra cost. Does the consumer or grower benefit more from GMOs or organic products? Host Christ Ai takes a closer look at what it costs to produce and purchase GMO products vs. non-GMO products with agricultural researcher Robert L. Paarlberg.

TOMORROW: The Attack on Food Symposium + Solutions to Fight Back — Hosted by Meryl Nass, MD

SAT. 3/4 @ 12pm ET | 9am PT

? https://bit.ly/3kG5SBN

Speakers Include:
? Dr. Mercola
? James Corbett
? Zen Honeycutt
? Stephanie Seneff
? Patrick Wood + MORE!

GET READY: The Attack on Food Symposium + Solutions to Fight Back: SAT. 3/4 @ 12pm EST

? https://bit.ly/3kG5SBN

The health of humanity is under threat! Learn from expert panelists what individuals, farmers + communities can do to protect food sovereignty

Only on #CHDTV

Posts

1 min ago


Best Electric Fireplaces With Mantels

Electric fireplaces bring warmth (both temperature and atmosphere) to living spaces without the mess of logs or ashes. They're also more efficient in energy use than wood-burning fireplaces and come with multiple flame and heat settings.

The way the fireplace will be used and where it will be used determine the type to buy. We've compiled the top electric fireplaces with mantels to help you stay cozy this season.

Real Flame Silverton Electric Fireplace

The Real Flame Silverton is a free-standing electric fireplace with a modern design and is perfect for any room. The stylish fireplace includes a mantel, firebox with log set and hardware as well as an adjustable thermostat as well as a remote control. It can provide supplemental heat to rooms up to 1,000 square foot or can be used without a heater to create a tranquil ambience throughout the year.

The flame display in this electric fireplace has been designed to look as authentic as possible, with a flickering effect and crackling sound effects. Some models also have a heat-producing fan to generate warm air in the room which can be controlled from your smartphone or remote. In addition, the Silverton comes with an easy-to-use power outlet built-in that makes it simple to connect any device that requires electricity.

Many electric fireplaces feature innovative technology that can provide an immersive experience. For example, the Magikflame fireplace is able to replicate and project up to 30 different styles of flames and brightness levels, in addition to ambient sounds and other relaxing nature sounds. It also comes with Bluetooth connectivity, so you can alter the settings from your mobile device.

Electric fireplaces are also more secure and efficient than wood-burning models. Since they don't rely on any kind of fossil fuels, they're an excellent alternative to traditional fireplaces for environmentally conscious homeowners. Additionally, they have an automatic shut-off feature that prevents any injuries or accidents from occurring.

These devices not only provide warmth and a beautiful ambience, but also enhance air quality. Some models come with a heat-generating fan that will circulate the air in your home, which will aid in breathing more easily during the colder months. They also help reduce dust in your home.

Electricity is a form of green energy that is becoming increasingly popular as people are more concerned about decreasing their carbon footprint. With this in mind, many people have begun to replace traditional fireplaces with electric models. As opposed to wood-burning or gas-burning fireplaces electric fireplaces do not require vents, and they can be installed anywhere in your home. Electric fireplaces are an excellent alternative for those who desire the beauty of a fire but are limited in space or budget.

Dimplex Featherston Electric Fireplace

This fireplace can bring a sense of ambiance to any space all year long. It comes with the patented LED inner glowing logs and pulsating embers. Operates quietly and safely without any harmful emissions or particles, and operates at 100% efficiency. Connect the DFR2651L into any standard 120V outlet to instantly create ambiance. The Featherston fireplace mantel kit offers an elegant rustic look that works well in cottages, cabins and modern homes.

The multi-function remote lets you to control every aspect of your fire, including effects of the flame, the heat, and settings. You can alter the flames using several themes, or even a prism mode that changes the color. Set the desired temperature to warm rooms upto 1,000 sq. It displays the temperature settings, sleep times and special functions.

The Featherston fireplace blends technology and artistry for an organic, rustic look that creates the feel of a mountain lodge. The warm wood accents of the mantel and header brackets complement the ledge rock design with its architectural style. The GDS26-1152LR is a firebox that plugs into any 120V standard household electrical outlet. It also features Dimplex its own LED flame technology which provides stunning color and realism. A multi-function remote control with a floating display allows you to see the settings and special features like the sleep timer or selection of colors.

Best Choice Products Electric Fireplace Mantel

The Best Choice Products electric fireplace has a mantel, resin logs, and an authentic flame effect that we like. Its heater has multiple heat settings and offers additional warmth for rooms up to 1,000 square feet. The remote control lets you to alter the settings and turn on/off the heat. It comes with an safety feature that turns off the fireplace if it becomes too hot.



Wall-mounted electric fireplaces are less difficult to install than models that stand alone, as they don't require chimneys or wood stacks to support. The majority of electric fireplaces require little or no maintenance since they don't need to replace the wood or clean the hearth. They don't release ash, smoke or other pollutants that can irritate asthmatic or other respiratory patients.

A few of our most loved electric fire places have advanced features, such as LED lighting and holographic technology. For example the MagikFlame HoloFlame wall mantel fireplace comes with advanced holographic technology that gives the user a 3D representation of flames that simulate. The simple controls are easy to comprehend. This fireplace is sleek and complements different styles of rooms. It can also be used as a part of décor when it is not being used.

Another option is an electric fireplace insert. These are designed to slide into a fireplace opening and can be installed by a handy homeowner or contractor. They're usually a bit more expensive than free-standing units, but they offer superior heating performance and are easy to operate. In contrast to most electric fireplaces however, they can't be used as a primary source of heat and must be paired with another heating system in your home.

Finally we would like to mention that some of our top wall-mounted electric fireplaces are intelligent and can be integrated into your home's existing ecosystem. The Touchstone Sideline Smart Electric Fireplace can be connected to your home's Wi Fi and comes with an app for mobile devices that allows you to control the unit remotely. It also comes with a voice-activated feature that is compatible with Amazon Alexa and Google Assistant devices. The fireplace offers multiple options for setting the brightness of the flame and flicker speed, so you can customize its appearance.

Best Choice Products Electric Fireplace With Bookcases

Think about the Top Choice Products Electric Fireplace 50'' if you want to give a warm and inviting look to your room with a wall-mounted fireplace. It has sleek, black glass finish and bright LED lights to create real flame effects. https://click4r.com/posts/g/18239089/the-step-by-step-guide-to-choosing-the-right-wall-mantel-electric-fir can heat up to 400 square feet of space and has a variable temperature control. It also has an ambient sound feature that plays soothing nature sounds or ocean waves to aid in relaxing.

One of the things that makes this electric fireplace with mantel stand out is its built-in touchscreen technology, which offers additional convenience and utility. It has the same touchscreen as your smartphone. You can use an app or even your voice control the features and settings. With the remote control, you can adjust the color of the flame and logs, as well as the timer from any room. With its sleek, smooth exterior, this fireplace is safe for children and pets who are allowed to be around.

High-end brands like MagikFlame which utilizes advanced technology like holographic and LCD displays are revolutionizing the market. The latest models offer a more realistic experiences.

When you are choosing an electric fireplace, be sure you read the specifications to find out if it meets your requirements. It is also important to know how much space you have and how often you plan to use it. You'll want to make sure that the fireplace will provide warmth without the fireplace becoming too hot or causing any safety concerns.

Another factor to consider is how it is easy to install an electric fireplace with mantel. While some models require a professional to install, others can be assembled by a do-it-yourselfer. Make sure you follow the manufacturer's step by step assembly instructions. Make use of an outlet that is dedicated instead of the power strip. These can overheat, and cause fires.

Join Click4r, the best blogging platform to create your own blogs for free in India! Publish anonymous, auto & private blogs on the top blogspot site. Start now!

click4r.com

1 min ago


The addition of an electron-deficient reagent such as 2,6-dichloro-1,4-benzoquinone suppressed this isomerization in the case of both Z- and E-PB and PI. Ion mobility spectrometry-mass spectrometry (IMS-MS) and energy-resolved tandem mass spectrometry (ERMS) analyses confirmed a successful isomerization suppression. For comparing the results obtained by depolymerization with classical methods for polymer analysis, pyrolysis-comprehensive two-dimensional gas chromatography/mass spectrometry (Py-GC × GC-MS), atmospheric solid analysis probe (ASAP), and direct inlet probe-atmospheric pressure chemical ionization (DIP-APCI) analyses were performed on the same polymers. This strategy can be applied on a variety of synthetic and natural not yet characterized polymers.Battery safety is an ever-increasing significance to guarantee consumer's safety. Reducing or preventing the risk of battery fire and explosion is a must for battery manufacturers. Major reason for the occurrence of fire in commercial lithium-ion batteries is the flammability of conventional organic liquid electrolyte, which is typically composed of 1 M LiPF6 salt and ethylene carbonate (EC)-based organic solvents. Herein, we report the designed 1 M LiPF6 and EC-based nonflammable electrolyte including methyl(2,2,2-trifluoroethyl)carbonate, which breaks the conventional perception that EC-based liquid electrolyte is always flammable. The designed electrolyte also provides high anodic stability beyond the conventional charge cut-off voltage of 4.2 V. A graphite∥LiNi0.6Co0.2Mn0.2O2 lithium-ion full cell with our designed EC-based nonflammable electrolyte with a small fraction of vinylene carbonate additive under an aggressive condition of 4.5 V charge cut-off voltage, 0.5C rate, and 45 °C exhibits increased capacity, reduced interfacial resistance, and improved performance and rate capability. A basic understanding of how a high-voltage cathode-electrolyte interface and anode-electrolyte interface are stabilized and how failure modes are mitigated by fire-preventing electrolyte is discussed.The titratable acidity, alkalinity, and carboxylate content are fundamental properties required for the understanding of aqueous chemical systems. Here, we present a set of new methods that allow these properties to be determined directly by 1H NMR without the labor, cost, and sample quantity associated with running separate potentiometric or conductometric titrations. Our methods require only the measurement of the pH-sensitive 1H chemical shifts of indicator molecules and do not require the tedious titration of reagents into a sample. To determine the titratable acidity, an excess of 2-methylimidazole (2MI) is added to a sample and the quantity of protons absorbed by 2MI is determined from its 1H chemical shifts. The titratable alkalinity of a sample can be similarly determined using acetic acid. To determine the concentration of deprotonated carboxylates, a sample is acidified with HCl, and the quantity of H+ absorbed is determined from the 1H chemical shift of methylphosphonic acid. We validate our methods by demonstrating the measurement of the acidity of fruit-flavored drinks, the alkalinity of tap water, and the carboxylate content of nanocellulose dispersions.Semiconducting carbon nanotube (CNT) networks exhibit electrical, mechanical, and chemical properties attractive for thin-film applications, and printing allows for scalable and economically favorable fabrication of CNT thin-film transistors (TFTs). https://www.selleckchem.com/products/ml324.html However, device-to-device variation of printed CNT-TFTs remains a concern, which largely stems from variations in printed CNT thin-film morphology and resulting properties. In this work, we overcome the challenges associated with printing uniformity and demonstrate an aerosol jet printing process that yields devices exhibiting a hole mobility of μh = 12.5 cm2/V·s with a relative standard deviation as small as 4% (from over 38 devices). The enabling factors of such high uniformity include control of the CNT ink bath temperature during printing, ink formulation with nonvolatile and viscosifying additives, and a thermal treatment for polymer removal. It is discovered that a low CNT ink temperature benefits aerosol jet printing uniformity and stability in both short-term (∼1 min) and long-term (∼1 h) printing settings. These findings shed light on the effect of a commonly overlooked dimension of CNT aerosol jet printing and provide a practical strategy for large-scale, high-consistency realization of CNT-TFTs.Dysregulation of cellular ribose uptake can be indicative of metabolic abnormalities or tumorigenesis. However, analytical methods are currently limited for quantifying ribose concentration in complex biological samples. Here, we utilize the highly specific recognition of ribose by ribose-binding protein (RBP) to develop a single-protein ribose sensor detectable via a sensitive NMR technique known as hyperpolarized 129Xe chemical exchange saturation transfer (hyper-CEST). We demonstrate that RBP, with a tunable ribose-binding site and further engineered to bind xenon, enables the quantitation of ribose over a wide concentration range (nM to mM). Ribose binding induces the RBP "closed" conformation, which slows Xe exchange to a rate detectable by hyper-CEST. Such detection is remarkably specific for ribose, with the minimal background signal from endogenous sugars of similar size and structure, for example, glucose or ribose-6-phosphate. Ribose concentration was measured for mammalian cell lysate and serum, which led to estimates of low-mM ribose in a HeLa cell line. This highlights the potential for using genetically encoded periplasmic binding proteins such as RBP to measure metabolites in different biological fluids, tissues, and physiologic states.The process complexity, limited stability, and distinct synthesis and dispersion steps restrict the usage of multicomponent metal oxide nanodispersions in solution-processed electronics. Herein, sonochemistry is employed for the in situ synthesis and formulation of a colloidal nanodispersion of high-permittivity (κ) multicomponent lanthanum zirconium oxide (LZO La2Zr2O7). The continuous propagation of intense ultrasound waves in the aqueous medium allows the generation of oxidant species which, on reaction, form nanofragments of crystalline LZO at ∼80 °C. Simultaneously, the presence of acidic byproducts in the vicinity promotes the formulation of a stable as-prepared LZO dispersion. The LZO thin film exhibits a κ of 16, and thin-film transistors (TFTs) based on LZO/indium gallium zinc oxide operate at low input voltages (≤4 V), with the maximum mobility (μ) and on/off ratio (Ion/Ioff) of 5.45 ± 0.06 cm2 V-1 s-1 and ∼105, respectively. TFTs based on the compound dielectric LZO/Al2O3 present a marginal reduction in leakage current, along with enhancement in μ (6.

1 min ago


pharmaceuticals for diagnosis and treatment and collaborations with other scientific fields.
Diffusion-weighted whole-body MRI (DW-MRI) is increasingly used in the management of multiple myeloma (MM) patients, but data regarding the prognostic role of DW-MRI imaging response after treatment are lacking. The Myeloma Response Assessment and Diagnosis System (MY-RADS) imaging recommendations recently proposed the criteria for response assessment category (RAC) with a 5-point scale in order to standardize response assessment after therapy, but this score still needs to be validated.

We investigated the prognostic role of RAC criteria in 64 newly diagnosed MM patients after autologous stem cell transplantation (ASCT), and we combined the results of MY-RADS with those of minimal residual disease (MRD) assessment by multiparametric flow cytometry (MFC).

Superior post-ASCT PFS and OS were observed in patients with complete imaging response (RAC1), with respect to patients with imaging residual disease (RAC≥2) median PFS not reached (NR) versus 26.5 months, p=0.0047, HR 0.28 (95% CI 0.12-0.68); 3-year post-ASCT OS 92% versus 69% for RAC1 versus RAC ≥2, respectively, p=0.047, HR 0.24 (95% CI 0.06-0.99). Combining MRD and imaging improved prediction of outcome, with double-negative and double-positive features defining groups with excellent and dismal PFS, respectively (PFS NR vs. 10.6months); p=0.001, HR 0.07 (95%CI 0.01-0.36).

The present study supports the applicability of MY-RADS recommendations after ASCT; RAC criteria were able to independently stratify patients and to better predict their prognosis and the combined use of DW-MRI with MFC allowed a more precise evaluation of MRD.
The present study supports the applicability of MY-RADS recommendations after ASCT; RAC criteria were able to independently stratify patients and to better predict their prognosis and the combined use of DW-MRI with MFC allowed a more precise evaluation of MRD.This study develops a novel strategy for regenerative therapy of musculoskeletal soft tissue defects using a dual-phase multifunctional injectable gelatin-hydroxyphenyl propionic acid (Gtn-HPA) composite. The dual-phase gel consists of stiff, degradation-resistant, ≈2-mm diameter spherical beads made from 8 wt% Gtn-HPA in a 2 wt% Gtn-HPA matrix. The results of a 3D migration assay show that both the cell number and migration distance in the dual-phase gel system are comparable with the 2 wt% mono-phase Gtn-HPA, but notably significantly higher than for 8 wt% mono-phase Gtn-HPA (into which few cells migrated). The results also show that the dual phase gel system has degradation resistance and a prolonged growth factor release profile comparable with 8 wt% mono-phase Gtn-HPA. In addition, the compressive modulus of the 2 wt% dual-phase gel system incorporating the 8 wt% bead phase is nearly four-fold higher than the 2 wt% mono-phase gel (5.3 ± 0.4 kPa versus 1.5 ± 0.06 kPa). This novel injectable dual-phase Gtn-HPA composite thus combines the advantages of low-concentration Gtn-HPA (cell migration) with high-concentration Gtn-HPA (stiffness, degradation resistance, slower chemical release kinetics) to facilitate effective reparative/regenerative processes in musculoskeletal soft tissue.Sensitive immunoassays are required for troponin, a low-abundance cardiac biomarker in blood. In contrast to conventional (analog) assays that measure the integrated signal of thousands of molecules, digital assays are based on counting individual biomarker molecules. Photon-upconversion nanoparticles (UCNP) are an excellent nanomaterial for labeling and detecting single biomarker molecules because their unique anti-Stokes emission avoids optical interference, and single nanoparticles can be reliably distinguished from the background signal. Here, the effect of the surface architecture and size of UCNP labels on the performance of upconversion-linked immunosorbent assays (ULISA) is critically assessed. The size, brightness, and surface architecture of UCNP labels are more important for measuring low troponin concentrations in human plasma than changing from an analog to a digital detection mode. Both detection modes result approximately in the same assay sensitivity, reaching a limit of detection (LOD) of 10 pg mL-1 in plasma, which is in the range of troponin concentrations found in the blood of healthy individuals.Imaging-guided local therapy is the most effective strategy to treat primary cancers in patients. However, the local therapeutic effect should be further improved under the premise of absence of induction of additional side effects. It would be meaningful to analyze the potential assistance of nuclear imaging to the follow-up treatments. In this study,cancer-targeted copper sulfide nanoparticles with 99m Tc labeling (99m Tc-M-CuS-PEG) are prepared using-cancer cell membranes as a synthesis reactor and applied for the potential single-photon emission computed tomography/photoacoustic imaging-guided and 99m Tc-amplified photothermal therapy of cancer. Owing to the homologous targeting capability of the cancer cell membrane, M-CuS-PEG selectively accumulates in homologous tumor sites. After labeling with 99m Tc, M-CuS-PEG with a high near-infrared light absorbance can realize bimodal imaging-guided photothermal therapy of cancer. https://www.selleckchem.com/products/art558.html Furthermore, the labeled 99m Tc significantly enhances the cell uptake of M-CuS-PEG by inducing G2/M arrest of the cell cycle, further improving the photothermal antitumor effect, which is positively correlated with endocytosis of the photothermal conversion reagent. Therefore, a novel cancer-targeted theranostic nanoplatform is developed and it is revealed that the labeled 99m Tc can not only guide but also amplify the subsequent therapy of cancer, providing a conceptual strategy for cancer theranostics with a high biosafety.Organic-inorganic halide perovskites have demonstrated significant light detection potential, with a performance comparable to that of commercially available photodetectors. In this study, a general design guideline, which is applicable to both inverted and regular structures, is proposed for high-performance perovskite photodiodes through an interfacial built-in electric field (E) for efficient carrier separation and transport. The interfacial E generated at the interface between the active and charge transport layers far from the incident light is critical for effective charge carrier collection. The interfacial E can be modulated by unintentional doping of the perovskite, whose doping type and density can be easily controlled by the post-annealing time and temperature. Employing the proposed design guideline, the inverted and regular perovskite photodiodes exhibit the external quantum efficiency of 83.51% and 76.5% and responsivities of 0.37 and 0.34 A W-1 , respectively. In the self-powered mode, the dark currents reach 7.

2 mins ago


Bunk Bed Single Mattress

Bunk beds are a smart solution to reduce space in guest rooms as well as kids' rooms. They are typically compatible with twin, twin XL, full, and queen size mattresses.

For the top bunk, search for mattresses with good edge support. This will prevent sagging and reduce the chance of roll-offs. Also, think about all-foam and latex models that do not produce squeaks and creaks at night.

Space-Saving Design

Bunk beds make the most of limited floor space by stacking one bed on top of another. They are particularly useful in cramped settings such as rehabilitation centers and youth psychiatric facilities where beds must be close together to accommodate several patients. Bunk beds can help facilities save space without compromising the comfort of patients or safety.

Bunk bed single mattresses can be thinner than regular mattresses to make the most of space. This is done in order to ensure a safe distance between the top edge of the mattress and the upper guardrail. This is to ensure the safety of the people who are seated on the mattress, and to avoid injuries when someone climbs up onto the bunk above. Bunk beds also have slats to provide support to the mattress on the bottom. These slats may be placed on the floor, or on a platform.

The platform can be extended to create an office or additional storage for personal items and books. The bunk bed is an excellent addition to any bedroom. Bunk beds come in many different styles, such as L-shaped or lofted. You can choose which best suits your space.

Single bunk beds are more affordable than twin or full beds. They are a good choice for families. Bunk bed frames come in a variety of sizes and styles so you can pick the right one for your family. Many options come with the option of a trundle that can be used as an extra bed when guests are visiting.

Some bunk beds have shelves or drawers under the beds to allow easy access to personal items. This is an excellent way to organize clutter and free up space in small rooms. You can buy a bunk bed that doubles as a desk and provides additional storage space for your family.



Some bunk beds can be removed easily and reassembled to allow for flexible room layouts. Metal Demountable Bunk Beds are a common choice for hospitals that need to change the arrangement of their rooms and beds frequently. These beds are made of an extremely sturdy metal frame and feature a strong square tube deck, which gives strength and stability to the bed. The beds are available in different sizes to fit different patient needs and room measurements.

Convenience

Bunk beds can be a great way to add function to a small space however they may restrict room design flexibility and can pose problems when it comes to storage. Selecting a bunk bed with single mattresses that have built-in shelves, drawers, or cabinets can address this problem and make the most of a limited floor area. This feature is especially useful in areas of shared living, such as shelters or hostels.

When you are looking for a mattress for your bunk bed, you'll find plenty of options available on the market. Some brands claim their mattresses offer universal comfort regardless of the position of the sleeper and body type, but you need to consider what feels at ease for the people who will use the bed before making your decision.

You also want to ensure the bunk bed mattress you pick can safely accommodate the number of sleepers it will need to accommodate. A standard Twin mattress is a good fit for most top and bottom bunks but you might need to use a bunk bed conversion kit or a bunker board with some models to ensure safety of the structure.

The majority of bunk bed frames need a mattress that's 7 inches thick or less. Many bed-in-a-box and online mattresses meet this requirement, but there are also special bunk beds that require a larger mattress to prevent bending at the frame joints. If you plan to have a bed with a top mattress and a bottom mattress, you should choose a mattress that are at least 8 inches thick. This will minimize the risk of a sleeper falling off the top bunk.

A memory foam bunk mattress provides a significant amount of contouring support which is perfect for smaller frame sleepers or those suffering from muscles and joint pain. Some of these beds have cooling gel that regulates your sleep temperature. This is great for those who overheat in the night.

A hybrid mattress can be utilized to make bunk beds, since it blends traditional innersprings with layers of contouring memory. This model by Linenspa is made to last and last for a long time, plus it has the cover made of GOTS-certified organic cotton and layers of eco-friendly Talalay latex foam.

Safety

Safety is always an important consideration when it comes to bunk bed security. Bunk bed single mattresses are designed to ensure that you and your family remain safe while sleeping and playing, whether you're furnishing a children's room or creating a retreat for adults. Guard rails as well as a sturdy ladder, and the right mattress support system are essential safety features. Regularly checking and maintaining these parts will help ensure a safe sleeping environment.

Bunk bed sizes vary in size, so it's crucial to choose the mattress that fits your bed frame perfectly. A mattress that is too small could cause structural issues, and a mattress that's too large could pose an entrapment risk. It's also important to consider the weight of the top and bottom bunk so that you don't burden your structure.

Mattress thickness is also an important factor in bunk bed safety. A mattress between 6 and 8 inches in thickness can provide a balance between headroom, comfort and security. The thinner mattresses decrease the risk of someone hitting their head against the upper railing of the bunk or the ceiling. Likewise, thicker mattresses provide more cushioning to help you get a good night's rest.

It is also important to ensure that the mattress you choose has passed a series of rigorous safety tests. This will ensure that your family and friends have a long time of uninterrupted sleep. The mattress should meet the ASTM F-1427 Standard Consumer Safety Specifications For Bunk Beds and the mattress on the lower bunk should not be more than 5 inches away from the upper bunk safety guardrail.

Ideally, your bunk bed should have safety rails on both sides of the head, as well as foot boards to protect against falls that could be accidental and to keep children from falling off their limbs or heads stuck between the mattress and the frame. Make sure to inspect your bunk beds frequently for signs of wear, like gaps or looseness.

It is also important to teach your children to use the ladder safely and not place items on the top bunk. This will prevent them from falling off the bed or tripping over toys and other items.

Durability

Durability is an important factor to consider when it comes bunk bed single mattresses. Luckily, there are plenty of options that satisfy the needs of both adults and children, including innerspring, hybrid foam, and hybrid.

Innerspring mattresses are excellent bunk bed mattresses because they provide the most support. They also have the addition of memory foam that helps relieve pressure points and cushion the shoulders and hips. They are light and easy to move, so you can easily switch out the bunk bed mattresses when one wears out over time.

A quality bunk mattress must have a good edge support. https://telegra.ph/5-Single-Bunk-Mattress-Myths-You-Should-Avoid-10-14 is particularly crucial for the top bunk mattress since it has to fit inside the guardrails, and remain firm even when a child sleeps on it. The hybrid and innerspring mattresses typically provide a strong edge support. A lot of foam mattresses strengthen the edges by using high density foam.

Kids will likely enjoy climbing into and out of bunk beds and that's why you should search for a mattress that's durable enough to withstand regular use. A lot of mattress companies online offer extended sleep trial periods that let you try out a mattress for your bunk bed before making a purchase. This can help you find the ideal mattress for your child, and provide you with the assurance that you're getting a top quality mattress.

The thickness of a bunk bed mattress is an important factor to take into consideration as well. You'll need to make sure that the mattress's thickness is sufficient to accommodate a twin-sized bed on the top and an adult-sized bed on the bottom bunk. This will allow your children to stretch and reduce the risk of the mattress becoming too squishy or sagging.

Bunk beds don't just belong in homes, as they're frequently used in healthcare environments as a cost-effective method to accommodate guests. If you need bunk beds for a nursing home or hospital choose a metal bunkable mattress that is durable and strong to be used frequently by adults and children alike. They are available in a range of sizes, ranging from twin and twin XL up to queen or king for the bunk at the bottom.

3 mins ago


The movement of single kinesin molecules was observed while applying noisy external forces that mimic intracellular active fluctuations. We found kinesin accelerates under noise, especially when a large hindering load is added. The behavior quantitatively conformed to a theoretical model that describes the kinesin movement with simple two-state reactions. The universality of the kinetic theory suggests that intracellular enzymes share a similar noise-induced acceleration mechanism, i.e., active fluctuations in cells are not just noise but are utilized to promote various physiological processes.We report a laser-plasma experiment that was carried out at the LMJ-PETAL facility and realized the first magnetized, turbulent, supersonic (Ma_turb≈2.5) plasma with a large magnetic Reynolds number (Rm≈45) in the laboratory. Initial seed magnetic fields were amplified, but only moderately so, and did not become dynamically significant. A notable absence of magnetic energy at scales smaller than the outer scale of the turbulent cascade was also observed. Our results support the notion that moderately supersonic, low-magnetic-Prandtl-number plasma turbulence is inefficient at amplifying magnetic fields compared to its subsonic, incompressible counterpart.Ultrafast optical excitation of matter leads to highly excited states that are far from equilibrium. In this study, femtosecond x-ray absorption spectroscopy was used to visualize the ultrafast dynamics in photoexcited warm dense Cu. The rich dynamical features related to d vacancies are observed on femtosecond timescales. Despite the success in explaining x-ray absorption data in the picosecond regime, the new femtosecond data are poorly understood through the traditional two-temperature model based on the fast thermalization concept and the static electronic structure for high-temperature metals. An improved understanding can be achieved by including the recombination dynamics of nonthermal electrons and changes in the screening of the excited d block. The population balance between the 4sp and 3d bands is mainly determined by the recombination rate of nonthermal electrons, and the underpopulated 3d block is initially strongly downshifted and recovered in several hundreds of femtoseconds.When electrons flow as a viscous fluid in anisotropic metals, the reduced symmetry can lead to exotic viscosity tensors with many additional, nonstandard components. We present a viscometry technique that can, in principle, measure the multiple dissipative viscosities allowed in isotropic and anisotropic fluids alike. By applying representation theory to exploit the intrinsic symmetry of the fluid, our viscometry is also exceptionally robust to both boundary complications and ballistic effects. We present the technique via the illustrative example of dihedral symmetry, relevant in this context as the point symmetry of 2D crystals. Finally, we propose a present-day realizable experiment for detecting, in a metal, a novel hydrodynamic phenomenon the presence of rotational dissipation in an otherwise isotropic fluid.Hydrodynamic instabilities driven by a direct current are analyzed in 2D and 3D relativisticlike systems with the Dyakonov-Shur boundary conditions supplemented by a boundary condition for temperature. Besides the conventional Dyakonov-Shur instability for plasmons, we find an entropy wave instability in both 2D and 3D systems. The entropy wave instability is a manifestation of the relativisticlike nature of electron quasiparticles and a nontrivial role of the energy current in such systems. These two instabilities occur for the opposite directions of fluid flow. While the Dyakonov-Shur instability is characterized by the plasma frequency in 3D and the system size in 2D, the frequency of the entropy wave instability is tunable by the system size and the flow velocity.We obtain full-color three-loop, three-point form factors of the stress-tensor supermultiplet and also of a length-3 half-Bogomol'nyi-Prasad-Sommerfield operator in N=4 supersymmetric Yang-Mills (SYM) theory based on the color-kinematics duality and on-shell unitarity. The integrand results are verified by all planar and nonplanar unitarity cuts, and they satisfy the minimal power counting of loop momenta and diagrammatic symmetries. Interestingly, these three-loop solutions, while manifesting all dual Jacobi relations, contain a large number of free parameters; in particular, there are 24 free parameters for the form factor of the stress-tensor supermultiplet. Such degrees of freedom are due to a new type of generalized gauge transformation associated with the operator insertion for form factors. We also perform numerical integration and obtain consistent full-color infrared divergences and the known planar remainder. The form factors we obtain can be understood as the N=4 SYM counterparts of three-loop Higgs plus three-gluon amplitudes in QCD and are expected to provide the maximally transcendental parts of the latter.The optical response of crystals is most commonly attributed to electric dipole interactions between light and matter. Although metamaterials support "artificial" magnetic resonances supported by mesoscale structuring, there are no naturally occurring materials known to exhibit a nonzero optical-frequency magnetic polarizability. Here, we experimentally demonstrate and quantify a naturally occurring nonzero magnetic polarizability in a layered semiconductor system two-dimensional (Ruddlesden-Popper phase) hybrid organic-inorganic perovskites. These results demonstrate the only known material with an optical-frequency permeability that differs appreciably from vacuum, informing future efforts to find, synthesize, or exploit atomic-scale optical magnetism for novel optical phenomena such as negative index of refraction and electromagnetic cloaking.This Letter presents the first experimental evidence of the attractive strong interaction between a proton and a ϕ meson. The result is obtained from two-particle correlations of combined p-ϕ⊕ p[over ¯]-ϕ pairs measured in high-multiplicity pp collisions at sqrt[s]=13  TeV by the ALICE Collaboration. The spin-averaged scattering length and effective range of the p-ϕ interaction are extracted from the fully corrected correlation function employing the Lednický-Lyuboshits approach. In particular, the imaginary part of the scattering length vanishes within uncertainties, indicating that inelastic processes do not play a prominent role for the p-ϕ interaction. These data demonstrate that the interaction is dominated by elastic p-ϕ scattering. https://www.selleckchem.com/products/epacadostat-incb024360.html Furthermore, an analysis employing phenomenological Gaussian- and Yukawa-type potentials is conducted. Under the assumption of the latter, the N-ϕ coupling constant is found to be g_N-ϕ=0.14±0.03(stat)±0.02(syst). This work provides valuable experimental input to accomplish a self-consistent description of the N-ϕ interaction, which is particularly relevant for the more fundamental studies on partial restoration of chiral symmetry in nuclear medium.We theoretically study subradiant states in an array of atoms coupled to photons propagating in a one-dimensional waveguide focusing on the strongly interacting many-body regime with large excitation fill factor f. We introduce a generalized many-body entropy of entanglement based on exact numerical diagonalization followed by a high-order singular value decomposition. This approach has allowed us to visualize and understand the structure of a many-body quantum state. We reveal the breakdown of fermionized subradiant states with increase of f with the emergence of short-ranged dimerized antiferromagnetic correlations at the critical point f=1/2 and the complete disappearance of subradiant states at f>1/2.The recent discovery of AV_3Sb_5 (A=K,Rb,Cs) has uncovered an intriguing arena for exotic Fermi surface instabilities in a kagome metal. Among them, superconductivity is found in the vicinity of multiple van Hove singularities, exhibiting indications of unconventional pairing. We show that the sublattice interference mechanism is central to understanding the formation of superconductivity in a kagome metal. Starting from an appropriately chosen minimal tight-binding model with multiple van Hove singularities close to the Fermi level for AV_3Sb_5, we provide a random phase approximation analysis of superconducting instabilities. Nonlocal Coulomb repulsion, the sublattice profile of the van Hove bands, and the interaction strength turn out to be the crucial parameters to determine the preferred pairing symmetry. Implications for potentially topological surface states are discussed, along with a proposal for additional measurements to pin down the nature of superconductivity in AV_3Sb_5.Prodrugs and nanoformulations are two effective strategies for sustained drug release and targeting drug delivery. In this study, we combined the two strategies to judiciously design the liposome formulation incorporating an amphiphilic prodrug of 5-fouroracil (5-FU), named 5-FCPal, for sustained drug release and enhanced bioavailability. 5-FCPal is an analogue of capecitabine (N4-pentyloxycarbonyl-5'-deoxy-5-fluorocytidine, Xeloda) by substituting the pentyl group at the N4 position with the palmityl. The amphiphilic molecule of 5-FCPal can self-assemble with the phospholipids to form stable vesicle structures with high drug loading. Although lipid vesicles have been widely studied and commercially used for clinical applications, because of the enormous options of the lipids and the equitable balance of hydrophobicity and bioavailability, it is essential to fundamentally understand the molecular interactions when designing and optimizing the liposomal prodrug formulations. We report the study of using X-ray liquid surface scattering techniques integrated with a Langmuir trough to explicitly reveal the interfacial behavior of the monolayer membrane of 5-FCPal with various saturated and unsaturated lipids with positively charged, neutral, and negatively charged head groups. More specifically, interfacial packing of the molecules was quantified using interfacial isotherms, X-ray reflectivity (XR), and grazing-incidence diffraction (GIXD). The results indicate that the interactions between the prodrug and the cationic lipids are most favorable. The highest drug loading is quantified by increasing the molar ratio of the prodrug until stable monolayer structures were disrupted by the multiple-layer domain of prodrug aggregates. Stable liposomes of 100 nm with 50% drug loading of 5-FCPal were generated based on the findings from the X-ray studies.The three-component annulation reactions of C60, alkyl isocyanide, and dimethyl acetylenedicarboxylate (DMAD) or unsymmetric alkynes are investigated to afford cyclopent-2-en-1-imino- and ketenimine methano-[60]fullerene derivatives, which, upon hydration in the presence of acid, yield the corresponding fullerene amides. Dimethyl 2,3-pentadienedioate, the allene counterpart of DMAD, and ethyl buta-2,3-dienoate undergo four-component annulation with C60, alkyl isocyanide, and water under similar conditions to yield cyclopentano-[60]fullerene derivatives with similar amide groups.