Tag: 100-200

Han, Lili;Zhang, Hui;Ning, Yayun;Chen, Huanyu;Guo, Chao;Cui, Jinghao;Peng, Guoqiang;Ci, Zhipeng;Jin, Zhiwen published 《Environmentally stable one-dimensional copper halide based ultra-flexible composite film for low-cost X-ray imaging screens》. The research results were published in《Chemical Engineering Journal (Amsterdam, Netherlands)》 in 2022.Safety of Rubidiumchloride The article conveys some information:

Environmentally stable, low cost, large stokes shift, adjustable area and flexibility are basic factors to prepare scintillator films for their com. application. Here, a low cost (∼3 $/g) room-temperature ligand-assisted reprecipitation method is used to synthesize one-dimensional crystal structure based on Rb₂CuX₃ (X = Br, Cl). Rb₂CuBr₃ exhibits quite high mass yield of 90% with high Photoluminescence quantum yield (PLQY) of 59.06%. Importantly, its bright blue emission (90 nm stokes shift) is consistent with the highest optical detection efficiency wavelength range of com. SiPM. Further characterizations point out that such effective blue emission comes from the recombination of excitons rather than the defects or combination of electron-hole pairs. And the existing strong exciton-photon coupling is conducive to the formation of self-trapped excitons (STEs). Finally, uniform and adjustable area Rb₂CuBr₃-polystyrene composite films have been successfully obtained. It’s fascinating that the films exhibit ultra-flexibility (unchanged performance after multiple bending of 400 times) and excellent stability (subtle attenuation after 30 days of storage in a harsh environment). As an X-ray imaging screen, it presents a sensitive scintillation response to X-ray signals with superior linearity with high-quality images. Therefore, our prepared Rb₂CuBr₃ scintillator shows great com. prospects in the field of flexible X-ray detection. The experimental procedure involved many compounds, such as Rubidiumchloride (cas: 7791-11-9) .

Rubidium chloride(cas: 7791-11-9) is the mostly used rubidium compound, and finds use in various fields ranging from electrochemistry to molecular biology.Safety of Rubidiumchloride It is an efficient non-invasive biomarker; increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Miao, Xiu-Juan;Sun, Yong;Ma, Xin-Jun;Xiao, Jing-Lin published 《Asymmetrical semi-exponential potential effect of exciton in strong-coupling alkali halide quantum well》 in . The article was appeared in 《Superlattices and Microstructures》. They have made some progress in their research.Application In Synthesis of Rubidiumchloride The article mentions the following:

Within the framework of the method of Lee-Low-Pines unitary transformations and variations, strong-coupling exciton-longitudinal-optical (LO) phonon interaction in asym. semi-exponential potential quantum wells was investigated. It is shown that the self-trapping energy, effective potential and vibration frequency of the exciton, depends significantly on the parameters of the confined potential, electron-hole distance and electron-hole mass. And Rubidiumchloride (cas: 7791-11-9) was used in the research process.

Rubidium chloride(cas: 7791-11-9) can increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.Application In Synthesis of Rubidiumchloride Pharmaceutical compositions have been used as antidepressants in Europe. It is employed in biochemistry to induce cells to take up DNA.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Application In Synthesis of Rubidiumchloride《Partial Silica Encapsulation of Fe₃O₄ Nanoparticles in Reverse Emulsion by Internal Energy Modulation》 was published in 2021. The authors were Zong, Jianpeng;Song, Xiaohui;Wang, Ruoxu;Xu, Wenjia;Zhou, Weiwei;Li, Shuaibin;Feng, Yuhua;Chen, Hongyu, and the article was included in《Chemistry of Materials》. The author mentioned the following in the article:

While the reverse emulsion methods traditionally only give core-shell nanostructures, we show that Janus nanostructures could be readily obtained by introducing salt solutions Given the isolated pockets of reverse emulsion, the salt solutions could reach extreme concentrations, up to 700 times higher than what is possible via the Stober method. Both the increasing amount of the doped cations in the silica and the decreasing cationic radius would enhance the interactions with the neg. charged silica precursor, resulting in poorer ”wetting” of the silica domain on the Fe3O4 nanoparticles. In other words, with increasing strength of the internal interactions, the growth domain would have a higher tendency to curl up and reduce its unfavorable interfaces, leading to poorer wetting. The tuning of the solid-solid wetting is of great significance for the design and synthesis of Janus nanoparticles, in particular their precise structural modulation. We believe that our new means of structural modulation beyond the interface itself would open new synthetic routes at the nanoscale. To complete the study, the researchers used Rubidiumchloride (cas: 7791-11-9) .

Rubidium chloride(cas: 7791-11-9) can increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.Application In Synthesis of Rubidiumchloride Pharmaceutical compositions have been used as antidepressants in Europe. It is employed in biochemistry to induce cells to take up DNA.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Ganesan, R.;Muralidharan, R.;Parthipan, G.;Vinodhini, S. P.;Balasubramani, V.;Sridhar, T. M.;Arulmozhi, R.;Leelavathi, H. published 《Investigations on caesium-incorporated rubidium tin chloride-defect perovskite nanomaterial as highly efficient ultraviolet photocatalysts》. The research results were published in《Journal of Materials Science: Materials in Electronics》 in 2021.Electric Literature of ClRb The article conveys some information:

Recently perovskites-based inorganic compounds have been researched incredibly for their photocatalytic applications. In this work, rubidium tin chloride [Rb₂SnCl₆] and caesium-incorporated rubidium [(Rb_XCs_1-X)₂SnCl₆]-defect perovskites were synthesized for photocatalytic applications. This material is very useful for the degradation of dyes under UV irradiation among other photocatalysts, because of its superior properties such as nontoxicity, low cost, simple preparation methods and long-term thermal stability. The crystal structure, morphol. and elemental composition of synthesized defect perovskite materials have been analyzed using XRD, FESEM and EDAX mapping anal. The UV studies reveal that the band-gap values were tuned (from 2.71 eV in Rb₂SnCl₆ to 3.78 eV in (Rb_0.5Cs_0.5)₂SnCl₆), resulting in a blue shift of the PL emission peak (from 458 to 328 nm) due to the incorporation of caesium in rubidium site. The thermal stability of (Rb_0.5Cs_0.5)₂SnCl₆ is enhanced over other synthesized defect perovskite materials because 76% of samples remained at the highest temperature of 750 °C. Synthesized defect perovskite materials were used in the photocatalytic degradation of methylene blue dye under UV light radiation. Furthermore, an excellent photocatalytic degradation is observed for (Rb_0.5Cs_0.5)₂SnCl₆ (78% to 85%) compared to other defect perovskite materials even after 120 min irradiation The increase in photocatalytic efficiency of (Rb_0.5Cs_0.5)₂SnCl₆ is due to strong absorption of light, large separation of electron-holes pairs and the size of the nanoparticles. Also, the radical trapping experiment showed that the super oxide radicals (.O₂^–) and photo-generated holes (h+) were the predominant active species in the photocatalytic degradation of methylene blue dye process. This study concludes that the defect perovskites are the potential materials for photocatalytic application.Rubidiumchloride (cas: 7791-11-9) were involved in the experimental procedure.

Rubidium chloride(cas: 7791-11-9) can increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.Electric Literature of ClRb Pharmaceutical compositions have been used as antidepressants in Europe. It is employed in biochemistry to induce cells to take up DNA.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Li, Huanhuan;Geng, Wenhui;Sun, Xin;Wei, Wenya;Mu, Xuefan;Ahmad, Waqas;Hassan, Mehedi Md;Ouyang, Qin;Chen, Quansheng published 《Fabricating a nano-bionic sensor for rapid detection of H₂S during pork spoilage using Ru NPs modulated catalytic hydrogenation conversion》. The research results were published in《Meat Science》 in 2021.Application In Synthesis of Rubidiumchloride The article conveys some information:

Rapid, sensitive and on-site monitoring of meat spoilage is highly essential for food safety. Hydrogen sulfide (H2S) a typical volatile, produced during enzymic hydrolysis is considered as a reliable marker for evaluating meat freshness. Herein, a novel nano-bionic sensor based on the superior catalytic activity of ruthenium nanoparticles (Ru NPs) has been fabricated for H2S quantification. The activity sites of Ru NPs were poisoned in the presence of H2S, thereby affecting its catalytic efficiency via reducing the degradation of azo dye. The developed nano-bionic sensor achieved a selective response toward H2S, with capability for on-site surveillance of the pork freshness in the linear range (0-1800 nM). A higher correlation was obtained between the H2S content and the total viable count during the 9-period pork spoilage process (R2 = 0.9633 and 0.9769). Moreover, the proposed method exhibits high selectivity in the presence of other characteristic volatiles encountered during the pork storage process. The experimental procedure involved many compounds, such as Rubidiumchloride (cas: 7791-11-9) .

Rubidium chloride(cas: 7791-11-9) can increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.Application In Synthesis of Rubidiumchloride Pharmaceutical compositions have been used as antidepressants in Europe. It is employed in biochemistry to induce cells to take up DNA.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Name: Rubidiumchloride《Enhancing adsorption capacity and structural stability of Li_1.6Mn_1.6O₄ adsorbents by anion/cation co-doping》 was published in 2022. The authors were Su, Yifan;Qian, Fangren;Qian, Zhiqiang, and the article was included in《RSC Advances》. The author mentioned the following in the article:

Modifying the structure of Li₁.₆Mn₁.₆O₄ (LMO) to enhance its structural stability and adsorption capacity is an effective method to generate materials to recover Li⁺ ions from mixed solution Herein, the co-doping of trace non-metal ion (S) and metal ion (Al) into Li₁.₆Mn₁.₆O₄ (LMO-SAl) is established and shows excellent Li⁺ adsorption capacity and Mn anti-dissolution properties. The adsorption capacity (when [Li⁺] is 6 mmol L^-1) is increased from 26.1 mg g^-1 to 33.7 mg g^-1. This is attributed to improved charge d. via substitution of S at O sites, which facilitates the adsorption/desorption process. The Mn dissolution is also reduced from 5.4% to 3.0% for LMO-SAl, which may result from the stronger Al-O bonds compared to Li-O bonds that enhance the structural stability of the LMO. The ion-sieving ability of the co-doped material goes by the order of Kd (Li⁺ > Ca²⁺ > Mg²⁺ > Na⁺ > K⁺), indicating that Li⁺ can be efficiently separated from Lagoco Salt Lake brine. These results predict that lithium ions are effectively adsorbed from brine by the co-doped LMO material, which manifests the feasibility of lithium recovery and provides basic data for further industrial applications of adsorption. And Rubidiumchloride (cas: 7791-11-9) was used in the research process.

Rubidium chloride(cas: 7791-11-9) can increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.Name: Rubidiumchloride Pharmaceutical compositions have been used as antidepressants in Europe. It is employed in biochemistry to induce cells to take up DNA.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Miao, Xiu-Juan;Sun, Yong;Xiao, Jing-Lin published 《Anisotropic parabolic confinement potential effect on polaron ground state and phonon’s number in the RbCl asymmetrical quantum wells》. The research results were published in《Indian Journal of Physics》 in 2022.Synthetic Route of ClRb The article conveys some information:

The effect of anisotropic parabolic confinement potential (APCP) on the strong-coupling (SC) polaron ground state and phonon mean number (PMN) of RbCl asym. semi-exponential quantum wells (ASEQWs) have been investigated on the basis of Lee-Low-Pines (LLP) unitary transformation and linear combination operation methods. It was found that (1) the GSBE and PMN of SC polaron in ASEQWs were decreasing functions of the parameter σ and increasing functions of parameters V0 of asym. semi-exponential potential (ASEP). (2) The GSBE and PMN were elevated with raising the ECSs of APCP along both x and y directions. (3) These results could be ascribed to fascinating quantum dimension confinement effects. And Rubidiumchloride (cas: 7791-11-9) was used in the research process.

Rubidium chloride(cas: 7791-11-9) is the mostly used rubidium compound, and finds use in various fields ranging from electrochemistry to molecular biology.Synthetic Route of ClRb It is an efficient non-invasive biomarker; increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Zhao, Tiancheng;Hu, Yajie;Zhuang, Wen;Xu, Yifan;Feng, Jianyou;Chen, Peining;Peng, Huisheng published 《Fiber fluidic nanogenerator made from aligned carbon nanotubes composited with transition metal oxide》. The research results were published in《ACS Materials Letters》 in 2021.COA of Formula: ClRb The article conveys some information:

Harvesting electricity from water has been recognized as an effective way to deal with the increasing energy shortage. The nanogenerators made from carbon nanomaterials have been widely studied to harvest energy from various forms of water. However, its elec. generation is usually not sufficient for practical applications. Here, we develop a flexible fiber fluidic nanogenerator based on aligned carbon nanotube/transition metal oxide composite film. An open-circuit voltage of 0.31 V combined with an output power of 30 mW/m² had been produced when the fluidic nanogenerator was inserted into saline solution The output power is superior to the majority of previous hydroelec. generators based on carbon nanomaterials. A stable output voltage of 1.8 V could be further achieved by connecting fiber generators in series. The enhanced electricity generation after introduction of transition metal oxides is attributed to the intensified charge unbalance at the interfacial elec. double layer between the carbon nanotube and aqueous solution, which provides a new way for creating high-performing hydroelec. generators. And Rubidiumchloride (cas: 7791-11-9) was used in the research process.

Rubidium chloride(cas: 7791-11-9) is the mostly used rubidium compound, and finds use in various fields ranging from electrochemistry to molecular biology.COA of Formula: ClRb It is an efficient non-invasive biomarker; increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Reference of Rubidiumchloride《Structuring of reference data on the hygroscopic points of soluble substances》 was published in 2021. The authors were Tereshchenko, Anatoly G., and the article was included in《Journal of Chemical Thermodynamics》. The author mentioned the following in the article:

The article considers a way to expand the capabilities of the dynamic method for measuring hygroscopic points (equilibrium water vapor pressure over saturated solutions of substances) of solubles by applying it to an ordered series of substances with their hygroscopic points in a narrow range of (68-76)% RH. The exptl. measured values of hygroscopic points are proposed as reference data on the hygroscopicity of such substances as carbamide, rubidium chloride, sodium nitrate, strontium chloride; the values for barium bromide and lithium perchlorate are clarified. The capability of the dynamic method to measure the difference between the hygroscopic points of substances enhances its consistency and reliability, makes it possible to present reference data in a structured form. Along with the simplicity of the procedure and the laboratory equipment used, this makes the proposed version of the dynamic method highly competitive among the other methods for determining water vapor pressure over saturated solutions of substances. The experimental procedure involved many compounds, such as Rubidiumchloride (cas: 7791-11-9) .

Rubidium chloride(cas: 7791-11-9) is the mostly used rubidium compound, and finds use in various fields ranging from electrochemistry to molecular biology.Reference of Rubidiumchloride It is an efficient non-invasive biomarker; increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics

Yamasuso, Shohei;Kawai, Taketoshi published 《Electronic states and relaxation dynamics of Au centers in RbCl crystals》 in 2021. The article was appeared in 《Journal of Luminescence》. They have made some progress in their research.Reference of Rubidiumchloride The article mentions the following:

We investigated the electronic states and nonradiative transitions among the relaxed excited states of Au- centers in RbCl crystals. To this end, we measured the temperature dependences of the luminescence intensities and decay time constants of the A’, B’, and C’ luminescence bands, which are attributed to the radiative transitions from the relaxed excited states of Au- centers. The intensities and decay time constants of these luminescence bands change with temperature, through the thermally activated nonradiative transitions among the relaxed excited states. The temperature dependences of the luminescence intensities and decay time constants were analyzed utilizing rate equations, except the decay time constant of the C’ luminescence. From the best fitting results, the activation energies of the relaxed excited states are estimated The C’ luminescence has a longer decay time constant than that expected from the dipole-allowed transition. The temperature dependence of the decay time of the C’ luminescence is discussed by considering a trapped level. The experimental procedure involved many compounds, such as Rubidiumchloride (cas: 7791-11-9) .

Rubidium chloride(cas: 7791-11-9) can increases dopamine and norepinephrine levels, and useful for anergic and apathetic depressives.Reference of Rubidiumchloride Pharmaceutical compositions have been used as antidepressants in Europe. It is employed in biochemistry to induce cells to take up DNA.

Reference:
Chloride – Wikipedia,
Chlorides – an overview | ScienceDirect Topics