Your search keyword '"plasmon-activated water"' showing total 13 results

1. More-energetic vapors of in situ plasmon-activated water as an environmentally friendly etchant.

Author

Kao, Wei-Yu, Yu, Shih-Hao, Mai, Fu-Der, Tsai, Hui-Yen, Chen, Jing-Wei, and Liu, Yu-Chuan

Subjects

SERS spectroscopy, NON-alcoholic fatty liver disease, DEIONIZATION of water, SUBSTRATES (Materials science), ENVIRONMENTAL sciences

Abstract

[Display omitted] • Vapors of in situ PAW as environmentally friendly etchant. • In situ vapor of PAW being first utilized to modify SERS-active Ag substrate. • Developed environmentally friendly etching strategies being available for green science. These days, environmental science and sustainable development issues are highly valued. Also, water is the most abundant and most easily recyclable substance on earth, and it is also the most environmentally friendly solvent and reactant in the fields of chemistry and physics. In this work, in situ vapor of plasmon-activated water (PAW) was first utilized to modify surface-enhanced Raman scattering (SERS)-active Ag substrates by simple environmentally friendly etching. Compared to etching with conventional deionized water (DIW) vapor, higher SERS signals and lower relative standard deviations (RSDs) of the model compound, rhodamine 6G (R6G), were observed on PAW vapor-etched SERS-active Ag substrates. These developed SERS technologies were also effective for alternative detection methodologies of the pesticides tricyclazole (TC) and sulfoxaflor (SF) and for serum from patients with nonalcoholic steatohepatitis (NASH). Encouragingly, the limit of detection (LOD) of TC was determined to be extremely low at 5 ppb based on PAW vapor etching. The environmentally friendly etching strategies we developed provide innovative ideas for green science that avoid using harmful reagents. [ABSTRACT FROM AUTHOR]

Published

2024

2. Experiment-based new insights into hydrogen bonds between alcohol and water through reduced-hydrogen-bonded plasmon-activated water.

Author

Yu, Shih-Hao, Chang, Chun-Chao, Mai, Fu-Der, Tsai, Hui-Yen, and Liu, Yu-Chuan

Subjects

HYDROGEN bonding, MOLECULAR structure, NUCLEAR magnetic resonance, DEIONIZATION of water, HOT carriers, ETHANOL

Abstract

[Display omitted] • New insights into hydrogen bonds between alcohol and water through PAW. • For alcohols, the non–hydrogen-bonded alcohol being first successfully defined. • Relative intensity of weak HBs being first defined utilizing Raman spectra of mixture. The molecular structure of water and alcohol connected by hydrogen bonds (HBs) remains unclear. In this study, innovative plasmon-activated water (PAW) with fewer HBs was produced from bulk deionized water (DIW). The HBs between pure ethanol and water were stronger than those of pure DIW, which was confirmed by analyses of measured densities and the spectra of nuclear magnetic resonance (NMR) T 1 and Raman OH-stretching of PAW with fewer HBs for the first time. Moreover, the intrinsic HBs between hydrophilic alcohol molecules were destroyed by hot electron transfer, reducing the original HBs, such as in PAW. For extremely polar DIW, the degree of non–hydrogen-bonded water (DNHBW) was approximately 0.21. For alcohols, the non–hydrogen-bonded alcohol (DNHBA) was also first similarly defined. The calculated values of DNHBA are 0.48, 0.68, and 0.87 for methanol, ethanol, and propanol, respectively. These values were consistent with their corresponding solvent polarities and HB strength. Moreover, the relative intensity of weak HBs (RIWHBs) is first defined utilizing the Raman spectra of water and alcohol/water mixtures. The calculated values of RIWHBs were consistent with our recognized strength of HBs of alcohol/water mixtures, as illustrated by PAW with intrinsically reduced HBs. [ABSTRACT FROM AUTHOR]

Published

2024

3. Combined Lycium barbarum Polysaccharides with Plasmon-Activated Water Affect IFN-γ/TNF-α Induced Inflammation in Caco-2 Cells.

Author

Lian, Yu Zhi, Liu, Yu-Chuan, Chang, Chun-Chao, Nochi, Tomonori, and Chao, Jane C.-J.

Subjects

*POLYSACCHARIDES, *NLRP3 protein, *NITRIC-oxide synthases, *INFLAMMATION, *PROTEIN expression

Abstract

The effects of Lycium barbarum polysaccharides (LBP) and plasmon-activated water (PAW) against IFN-γ/TNF-α induced inflammation in human colon Caco-2 cells were investigated. Cells were divided into the control, induction, LBP treatment (100–500 μg/mL), and combination groups with PAW. Inflammation was induced 24 h with 10 ng/mL IFN-γ when cell confluency reached >90%, and various doses of LBP with or without PAW were treated for 3 h, and subsequently 50 ng/mL TNF-α was added for another 24 h to provoke inflammation. Combination of LBP with PAW significantly decreased the secretion of IL-6 and IL-8. Cyclooxygenase-2 and inducible NO synthase expression was attenuated in all LBP-treated groups with or without PAW. NLRP3 inflammasome and related protein PYCARD expression were inhibited by LBP at the highest dose (500 μg/mL). All doses of LBP alone significantly decreased p-ERK expression, but combination with PAW increased p-ERK expression compared to those without PAW. Additionally, 250 and 500 μg/mL of LBP with or without PAW inhibited procaspase-3/caspase-3 expression. Therefore, LBP possesses anti-inflammation and anti-apoptosis by inhibiting the secretion of inflammatory cytokines and the expression of NLRP3 inflammasome-related protein. The combination with PAW exerts additive or synergistic effect on anti-inflammation. [ABSTRACT FROM AUTHOR]

Published

2023

4. Combined Lycium barbarum Polysaccharides with Plasmon-Activated Water Affect IFN-γ/TNF-α Induced Inflammation in Caco-2 Cells

Author

Yu Zhi Lian, Yu-Chuan Liu, Chun-Chao Chang, Tomonori Nochi, and Jane C.-J. Chao

Subjects

ulcerative colitis, Lycium barbarum polysaccharides, plasmon-activated water, inflammation, apoptosis, Medicine, Pharmacy and materia medica, RS1-441

Abstract

The effects of Lycium barbarum polysaccharides (LBP) and plasmon-activated water (PAW) against IFN-γ/TNF-α induced inflammation in human colon Caco-2 cells were investigated. Cells were divided into the control, induction, LBP treatment (100–500 μg/mL), and combination groups with PAW. Inflammation was induced 24 h with 10 ng/mL IFN-γ when cell confluency reached >90%, and various doses of LBP with or without PAW were treated for 3 h, and subsequently 50 ng/mL TNF-α was added for another 24 h to provoke inflammation. Combination of LBP with PAW significantly decreased the secretion of IL-6 and IL-8. Cyclooxygenase-2 and inducible NO synthase expression was attenuated in all LBP-treated groups with or without PAW. NLRP3 inflammasome and related protein PYCARD expression were inhibited by LBP at the highest dose (500 μg/mL). All doses of LBP alone significantly decreased p-ERK expression, but combination with PAW increased p-ERK expression compared to those without PAW. Additionally, 250 and 500 μg/mL of LBP with or without PAW inhibited procaspase-3/caspase-3 expression. Therefore, LBP possesses anti-inflammation and anti-apoptosis by inhibiting the secretion of inflammatory cytokines and the expression of NLRP3 inflammasome-related protein. The combination with PAW exerts additive or synergistic effect on anti-inflammation.

Published

2023

5. Functional Plasmon-Activated Water Increases Akkermansia muciniphila Abundance in Gut Microbiota to Ameliorate Inflammatory Bowel Disease.

Author

Chang, Chun-Chao, Liu, Chih-Yi, Su, I-Chia, Lee, Yuarn-Jang, Yeh, Hsing-Jung, Chen, Wen-Chao, Yu, Chih-Jui, Kao, Wei-Yu, Liu, Yu-Chuan, and Huang, Chi-Jung

Subjects

*INFLAMMATORY bowel diseases, *GUT microbiome, *PREBIOTICS, *SULFONIC acids

Abstract

Inflammatory bowel disease (IBD) is associated with dysbiosis and intestinal barrier dysfunction, as indicated by epithelial hyperpermeability and high levels of mucosal-associated bacteria. Changes in gut microbiota may be correlated with IBD pathogenesis. Additionally, microbe-based treatments could mitigate clinical IBD symptoms. Plasmon-activated water (PAW) is known to have an anti-inflammatory potential. In this work, we studied the association between the anti-inflammatory ability of PAW and intestinal microbes, thereby improving IBD treatment. We examined the PAW-induced changes in the colonic immune activity and microbiota of mice by immunohistochemistry and next generation sequencing, determined whether drinking PAW can mitigate IBD induced by 2,4,6-trinitrobenzene sulfonic acid (TNBS) and dysbiosis through mice animal models. The effects of specific probiotic species on mice with TNBS-induced IBD were also investigated. Experimental results indicated that PAW could change the local inflammation in the intestinal microenvironment. Moreover, the abundance of Akkermansia spp. was degraded in the TNBS-treated mice but elevated in the PAW-drinking mice. Daily rectal injection of Akkermansia muciniphila, a potential probiotic species in Akkermansia spp., also improved the health of the mice. Correspondingly, both PAW consumption and increasing the intestinal abundance of Akkermansia muciniphila can mitigate IBD in mice. These findings indicate that increasing the abundance of Akkermansia muciniphila in the gut through PAW consumption or other methods may mitigate IBD in mice with clinically significant IBD. [ABSTRACT FROM AUTHOR]

Published

2022

6. Green and sustainable applications of energetic plasmon-activated water.

Author

Yang, Chih-Ping, Yu, Shih-Hao, and Liu, Yu-Chuan

Subjects

OXYGEN evolution reactions, OXIDATION of water, HYDROGEN evolution reactions, POLAR bear, DEIONIZATION of water, ANTARCTIC ice, SEA ice

Abstract

[Display omitted] This review describes the use of bulk deionized water (DIW) treatment to become plasmon-activated water (PAW) with reduced hydrogen bonds (HBs). PAW with special properties can be used in innovative applications and development of environmental protection science and sustainable energy management. PAW is a natural water solvent, but PAW subverts the public's idea that hydrophobic solutes are difficult to dissolve in water. PAW can dissolve more-hydrophobic solutes than ordinary water, and can also interact with water-soluble alcohol molecules to form stronger HBs. Moreover, in the application of certain reduction reactions, no chemical reducing agent is needed, and the catalytic reduction effect can be achieved using natural PAW. A characteristic application of PAW can also be extended to seawater desalination. Due to weak HBs among PAW molecules, high water evaporation rates can be produced, and a higher chemical potential can also be applied to the innovative development of solar energy storage. In electrochemical applications, PAW itself can promote water oxidation, oxygen reduction reactions, hydrogen and oxygen evolution reactions, and the efficient capacitor production of H 2 O 2. Furthermore, PAW can delay the melting of sea ice in the habitat of polar bears, so it may be applied to the issue of saving polar bears. [ABSTRACT FROM AUTHOR]

Published

2022

7. Engineered active pure water with reduced hydrogen bonds catalyzes itself in green energy production of oxygen and hydrogen evolution reactions.

Author

Yu, Shih-Hao, Chang, Chun-Chao, Mai, Fu-Der, Tsai, Hui-Yen, and Liu, Yu-Chuan

Subjects

*OXYGEN evolution reactions, *HYDROGEN bonding, *HYDROGEN production, *PRECIOUS metals, *CHEMICAL structure, *HYDROGEN evolution reactions

Abstract

[Display omitted] • Enhanced hydrogen and oxygen evolution reactions utilizing active pure PAW water. • The proposed strategy being applicable to inert and catalytic electrodes for OERs. • Active and stable PAW-C as a green solvent applicable to more-effective OERs and HERs. Noble metals, like platinum (Pt), palladium (Pd) and gold (Au), that possess special electronic configurations, are popularly used in renewable energy technologies of oxygen and hydrogen evolution reactions (OER and HER). Recently, approaches for renewable energies have focused on earth-abundant and cheap catalysts with different chemical compositions and structures. In this work, we propose an alternative strategy for OERs and HERs, focusing on water itself, utilizing Au-free condensed water (PAW-C) from heated trace Au-containing plasmon-activated water (PAW). Compared to active PAW, the electron-doping structure of PAW-C was reduced, while the degree of reduced hydrogen bonds (HBs) in PAW-C was enhanced. Encouragingly, compared to deionized water (DIW)-based 0.1 M KOH solutions, the measured current densities of OERs on a catalytic Pt electrode were significantly higher by average magnitudes of 45% and 23% for the PAW-C-based and PAW-based 0.1 M KOH solutions, respectively. Compared to the DIW-based 0.1 M H 2 SO 4 solution, the measured current density of HER on a catalytic Pt electrode was significantly higher by an average magnitude of 20% for the PAW-C-based 0.1 M H 2 SO 4 solution (an average higher magnitude of 15% for the PAW-based solution). Moreover, this proposed strategy was applicable to inert carbon and stainless steel electrodes for OERs. After aging for 3 days, the activity of the PAW-C of enhancing OERs was reduced by only ca. 5%. This fact indicates that its practical applications are promising. Active and stable PAW-C has emerged as a promising green solvent applicable to more-effective OERs and HERs. [ABSTRACT FROM AUTHOR]

Published

2023

8. Environmentally friendly etchant of in situ plasmon-activated water to improve SERS sensing of pesticides.

Author

Yang, Chih-Ping, Kao, Wei-Yu, Yu, Shih-Hao, Mai, Fu-Der, Tsai, Hui-Yen, Chen, Jing-Wei, and Liu, Yu-Chuan

Subjects

*IMIDACLOPRID, *SERS spectroscopy, *PLASMA etching, *PESTICIDES, *ETCHING techniques, *TECHNOLOGICAL innovations, *DEIONIZATION of water

Abstract

Wet etching, the most commonly used technology in the etching industry, is simple and convenient to use, and is currently the most widely used technical method of etching. However, etching solvents used in etching technology are harmful to living organisms and the environment. Another frequently used etching technique is dry etching. Dry etching is often used to prepare array substrates for surface-enhanced Raman scattering (SERS). However, the disadvantage of dry etching technology is its complicated operation and expensive equipment required. In order to resolve the shortcomings of the above etching technologies, we propose a new technical concept, in situ vapor etching with room-temperature plasmon-activated water (PAW). The vapor of traditional deionized water (DIW) cannot perform etching of SERS-active substrates. In situ PAW vapor has characteristics of high energy and doping electrons which enable in situ PAW vapor to perform nanostructured treatment of SERS-active substrates. In addition, many properties of PAW vapor are also superior to those of DIW. Application of PAW vapor to the rhodamine 6 G (R6G) probe molecule and the imidacloprid (IM), acetamiprid (AC), and flusilazole (FL) pesticides resulted in higher signal acquisitions and lower relative standard deviations (RSDs). In our proposed innovative technique, the limit of detection (LOD) of IM was determined to be 10 ppb. Application of this technique yielded the same or better results than SERS-array substrates. This environmentally friendly etching method is an innovative technology that can provide a wider range of SERS applications. • Environmental-friendly nanostructured modification based on PAW. • SERS-active substrate etched with room-temperature vapors of in situ PAW. • Limit of detection of 10 ppb imidacloprid being detected based on this strategy [ABSTRACT FROM AUTHOR]

Published

2023

9. Plasmon-activated water as a therapeutic strategy in Alzheimer's disease by altering gut microbiota.

Author

Cheng CH, Liu YC, Yang YSH, Lin KJ, Wu D, Liu YR, Chang CC, Hong CT, and Hu CJ

Subjects

Mice, Animals, Water, Amyloid beta-Peptides, Mice, Transgenic, Interleukin-6, Tumor Necrosis Factor-alpha, Disease Models, Animal, Alzheimer Disease therapy, Alzheimer Disease pathology, Gastrointestinal Microbiome physiology

Abstract

Gut microbiota (GM) are involved in the pathophysiology of Alzheimer's disease (AD) and might correlate to the machinery of the gut-brain axis. Alteration of the GM profiles becomes a potential therapy strategy in AD. Here, we found that plasmon-activated water (PAW) therapy altered GM profile and reduced AD symptoms in APPswe/PS1dE9 transgenic mice (AD mice). GM profile showed the difference between AD and WT mice. PAW therapy in AD mice altered GM profile and fecal microbiota transplantation (FMT) reproduced GM profile in AD mice. PAW therapy and FMT in AD mice reduced cognitive decline and amyloid accumulation by novel object recognition (NOR) test and amyloid PET imaging. Immunofluorescent staining and western blot analysis of β-amyloid (Aβ) and phosphorylated (p)-tau in the brain of AD mice were reduced in PAW therapy and FMT. The inflammatory markers, interleukin (IL)-6, IL-1β, and tumor necrosis factor (TNF)-α and pro-inflammatory indicator of arginase-1/CD86 ratio were also reduced. Furthermore, immunohistochemistry (IHC) analysis of occludin and claudin-5 in the intestine and AXL in the brain were increased to correlate with the abundant GM in PAW therapy and FMT. Our results showed the machinery of gut-brain axis, and PAW might be a potential therapeutic strategy in AD.

Published

2023

10. Functional Plasmon-Activated Water Increases Akkermansia muciniphila Abundance in Gut Microbiota to Ameliorate Inflammatory Bowel Disease

Author

Chun-Chao Chang, Chih-Yi Liu, I-Chia Su, Yuarn-Jang Lee, Hsing-Jung Yeh, Wen-Chao Chen, Chih-Jui Yu, Wei-Yu Kao, Yu-Chuan Liu, and Chi-Jung Huang

Subjects

Inorganic Chemistry, plasmon-activated water, inflammatory bowel disease, Akkermansia muciniphila, gut microbiota, microbial biomarker, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Inflammatory bowel disease (IBD) is associated with dysbiosis and intestinal barrier dysfunction, as indicated by epithelial hyperpermeability and high levels of mucosal-associated bacteria. Changes in gut microbiota may be correlated with IBD pathogenesis. Additionally, microbe-based treatments could mitigate clinical IBD symptoms. Plasmon-activated water (PAW) is known to have an anti-inflammatory potential. In this work, we studied the association between the anti-inflammatory ability of PAW and intestinal microbes, thereby improving IBD treatment. We examined the PAW-induced changes in the colonic immune activity and microbiota of mice by immunohistochemistry and next generation sequencing, determined whether drinking PAW can mitigate IBD induced by 2,4,6-trinitrobenzene sulfonic acid (TNBS) and dysbiosis through mice animal models. The effects of specific probiotic species on mice with TNBS-induced IBD were also investigated. Experimental results indicated that PAW could change the local inflammation in the intestinal microenvironment. Moreover, the abundance of Akkermansia spp. was degraded in the TNBS-treated mice but elevated in the PAW-drinking mice. Daily rectal injection of Akkermansia muciniphila, a potential probiotic species in Akkermansia spp., also improved the health of the mice. Correspondingly, both PAW consumption and increasing the intestinal abundance of Akkermansia muciniphila can mitigate IBD in mice. These findings indicate that increasing the abundance of Akkermansia muciniphila in the gut through PAW consumption or other methods may mitigate IBD in mice with clinically significant IBD.

Published

2022

11. Plasmon-activated water can form stronger intermolecular hydrogen bonding with water-soluble alcohols and dissolve more hydrophobic solutes.

Author

Yu, Shih-Hao, Chang, Chun-Chao, Mai, Fu-Der, Yang, Chih-Ping, and Liu, Yu-Chuan

Subjects

*CHEMICAL processes, *HYDROGEN bonding, *HOT carriers, *SUNFLOWER seed oil, *DEIONIZATION of water, *ALCOHOL

Abstract

• Lipophilic solute dissolved more in plasmon-activated water (PAW). • PAW forming stronger intermolecular hydrogen bonds with hydrophilic alcohol. • Decreased evaporation rate observed on PAW/alcohol solution. Liquid water, as the most environmentally friendly polar solvent, is popularly used in physical processes and chemical reactions. Its unique properties and activities come from the presence of intermolecular hydrogen bonds (HBs) with itself and other species. Scientists have been discussing properties other than known bulk water for a long time. However, the particular application of water being researched is limited today. Mass-produced active and stable plasmon-activated water (PAW) with a reduced HB network based on hot electron transfer (HET) from resonantly illuminated gold (Au) nanoparticles (NPs) was first created in 2014. In this work, we report its distinct intermolecular HBs with water-soluble alcohols and the solubility of hydrophobic solutes. Interestingly, the densities of PAW in methanol, ethanol, and propanol at various ratios all increased due to stronger HBs between PAW and the alcohols, particularly seen with propanol, compared to deionized water (DIW)-based systems. Moreover, these results reflect the decreased evaporation rates of PAW/alcohol solutions, especially observed for the solution with the maximum increased density, compared to DIW-based systems. Compared to DIW, the solubilities of hydrophobic antioxidants of curcumin and melatonin in PAW increased by ca. 240% and 120%, respectively. Moreover, sunflower oil was more soluble in the more-lipophilic PAW compared to conventional DIW. The distinct increased density of the alcohol/PAW solution lasted for at least 1 week. Innovative PAW has emerged as a promising green active solvent applicable for both hydrophilic and hydrophobic solutions. [ABSTRACT FROM AUTHOR]

Published

2022

12. Water composed of reduced hydrogen bonds activated by localized surface plasmon resonance effectively enhances anti-viral and anti-oxidative activities of melatonin.

Author

Renn, Ting-Yi, Yang, Chih-Ping, Wu, Un-In, Chen, Li-You, Mai, Fu-Der, Tikhonova, Maria A., Amstislavskaya, Tamara G., Liao, Wen-Chieh, Lin, Che-Tong, Liu, Yu-Chuan, and Chang, Hung-Ming

Subjects

*HYDROGEN bonding, *GOLD nanoparticles, *MELATONIN, *SURFACE plasmon resonance, *DEIONIZATION of water, *SLEEP deprivation

Abstract

• PAW significantly increases the solubility of melatonin that endows lipophilic property. • Melatonin dissolved in PAW displays greater anti-viral activity against dengue infection. • PAW plays synergetic effects with melatonin to raise melatonin's anti-oxidative function. • Melatonin dissolved in PAW greatly improves hepatic bioenergetics after sleep deprivation. • PAW may act as a powerful medium to greatly enhance melatonin's therapeutic efficiency. Melatonin is a lipophilic antioxidant generally dissolved in organic solvent before delivery. However, the presence of organics may severely depress the functional effects of melatonin. By rendering deionized water (DIW) flow through gold nano-particles under localized surface plasmon resonant illumination, we developed plasmon-activated water (PAW) which successfully increases the solubility of melatonin to 150.325%. Melatonin dissolved in PAW also exhibits stronger anti-viral and anti-oxidative activities than that dissolved in DIW in which the percentage of dengue virus infected human hepatocellular carcinoma cells is remarkably decreased (14.7% vs. 20.6%) whilst the clearance rate of hydroxyl radical is significantly enhanced (11.9% vs. 6.69%), respectively. Moreover, in vivo approaches further show that following chronic sleep deprivation, the level of oxidative stress, hepatic bioenergetics, anti-oxidative enzyme activity, and metabolic function are all significantly improved in rats received melatonin prepared in PAW than that in DIW. As the bio-activity of melatonin depends largely on its solubility, utilizing PAW as a non-organic solvent will not only enhance the anti-viral and anti-oxidative function of melatonin, but also offer great potential for clinical use of melatonin as a therapeutic strategy to depress virus infection and counteract oxidative damage in a more natural, more economic and more efficient way. [ABSTRACT FROM AUTHOR]

Published

2022

13. Comprehensively active condensed water from vapors of plasmon-activated water.

Author

Yu, Shih-Hao, Kao, Wei-Yu, Mai, Fu-Der, Tsai, Hui-Yen, and Liu, Yu-Chuan

Subjects

*OXYGEN evolution reactions, *WATER vapor, *NUCLEAR magnetic resonance, *DEIONIZATION of water, *HOT carriers, *GOLD nanoparticles

Abstract

• Comprehensively active condensed plasmon-activated water (PAW) • Condensed PAW with electron-doping and reduced hydrogen bonding. • Condensed PAW enhancing hydrogen evolution reaction and oxygen evolution reaction. Water is the most environmentally friendly solvent, but bulk water is conventionally considered to be a bystander in reactions performed in it. For decades, scientists have been discussing the characteristics of water that differ from bulk water in special environments. Recently, various small amounts of treated water were developed to create specific applications. In 2014, comprehensively active and stable plasmon-activated water (PAW), which was mass-produced and innovatively created by utilizing hot electron transfer (HET) from gold nanoparticles (AuNPs), was first reported. In this work, we report the maintenance of activity of purified Au-free PAW collected from water condensed from PAW vapor (PAW-V). Interestingly, the metastable PAW-V was still active with a structure of electron-doping and reduced hydrogen bonding (HB), which were confirmed by zeta potentials and the nuclear magnetic resonance (NMR) relaxation time (T 1). Like PAW, PAW-V enhanced hydrogen evolution reactions (HERs) and oxygen evolution reactions (OERs), compared to deionized water (DIW). The PAW-V itself exhibited the ability to more rapidly evaporate due to reduced HBs between homogeneous molecules, while a PAW/isopropanol solution evaporated more slowly due to enhanced HBs between heterogeneous molecules. Also, PAW-V could scavenge free 2,2-diphenyl-1-picrylhydrazyl (DPPH) radicals and reduce the strong KMnO 4 oxidant. The unique properties of PAW-V were maintained after storage for 3 days at room temperature in the dark. The condensed Au-free PAW has emerged as a promising green active solvent applicable in various fields of physics, chemistry and biomedicine. [ABSTRACT FROM AUTHOR]

Published

2021