By StudyFinds

Pain relief might grow on trees after all. In a collaborative effort spanning multiple Brazilian universities, researchers have found compelling evidence that leaves from the sugar apple tree — traditionally used in folk medicine — contain anti-arthritic powerful compounds that fight both pain and inflammation.

Sugar apple, known in Brazil as “fruta-do-conde” or “pinha,” has long been valued for its sweet fruit. However, its leaves (Annona squamosa) have drawn scientific interest for their potential therapeutic properties, particularly in treating pain and inflammation.

Published in the journal Pharmaceuticals, the study was conducted by teams from the Federal University of Grande Dourados, Federal University of Mato Grosso do Sul, State University of Campinas (UNICAMP), and São Paulo State University.

Modern pain management often relies heavily on two classes of drugs: opioids and nonsteroidal anti-inflammatory drugs (NSAIDs). While effective, both come with significant drawbacks. Opioids carry risks of dependence and addiction, while long-term NSAID use can lead to ulcers and cardiovascular problems. These limitations drive the ongoing search for safer alternatives.

The research team’s approach was methodical. They created a methanolic extract (EMAS) from dried sugar apple leaves using methanol as a solvent, and also isolated a specific compound called palmatine, which would prove crucial to their findings.

In several experiments, both EMAS and palmatine demonstrated significant ability to reduce inflammation and pain. When tested against pleurisy (inflammation of the lung lining), the higher doses proved particularly effective, with EMAS reducing inflammatory cell migration by up to 81% and palmatine by up to 75%.

Looking To Make Your Brand Reconigiable in New York? Expert Logo Design Can Help!

Your business logo isn’t just a symbol—it provides a face value to your company. In a place as competitive as New York, your brand needs to stand out from other brands. That’s why investing in expert-quality logo design in New York is the smartest move you can make.

Let’s understand how your business can go to the next level with a logo design that truly represents you.

Why Choosing the Right Logo Design in New York Is a Game-Changer for Your Business?

Here’s how smart branding through expert logo design in New York can give your business the boost it needs:

First Impressions Are Everything

When people see your brand for the first time, your logo should make a strong impression. A professionally crafted logo design gives off the right impression—one of credibility, trust, and personality. It tells people that you take your business seriously and that you’re here to stay.

“According to a survey in 2023, among US adults, one in three participants said that they purchased products due to interesting logos,” said Statista. 

“The survey also states that every 1 in 2 GenZers and Millennials purchased products due to interesting logos,” said Statista.

Builds Instant Recognition

You want people to remember you, and nothing does that better than a strong, recognizable logo. Whether you're running a small café in Brooklyn or a startup in Manhattan, consistent and thoughtful logo design helps customers recognize and recall your brand effortlessly.

“The brand logo should be easier to remember; customers should be able to draw the brand logo by themselves. Around 50 milliseconds are only needed for a customer to make a brand image,” said Forbes.

Reflects Your Brand Identity

Your logo is a symbol of your brand's core vision. The right color, font, and icon choice can express your modern and sleek, warm and welcoming, or bold and innovative image. 

A Great logo design takes the time to design and delivers something unique to match.

Perfect for Every Platform

A versatile logo on your website, business cards, signage, packaging, and even social media will grab attention. A skilled designer in New York knows how to create something adaptable—so your branding stays strong across all channels. 

Investing in logo design in New York ensures you get high-quality formats ready to go wherever your business takes you.

Gives You a Competitive Edge

In a city where businesses pop up overnight, standing out is essential. A generic or outdated logos are outdated. Professional logo design ensures you’re not just another face in the crowd but a brand that speaks directly to your audience and earns their trust.

Designed with Strategy in Mind

Behind every great logo is a solid branding strategy. It’s not just about appeal —it’s about making a professional impact. 

A professional logo designer will research your industry, your audience, and your competitors before creating a logo that works for you, not just looks good.

Adds Long-Term Value

While it may feel like a simple piece of art, your logo holds long-term branding value. It evolves with your business and contributes to your brand image. 

Getting the logo right from the beginning with trusted logo design professionals in New York means you won’t need to rebrand later—saving you time, money, and confusion.

“According to a survey stated by StudyFinds, around 3 in 4 recognize a brand by logo alone, and 1 in 2 people said they are likely to purchase a product from a company because they have seen their logo previously.”

Tells a Story Without Words

A well-thought-out logo tells a story about who you are, what you do, and why it matters—all without saying a word. That��s the magic of a truly successful logo design in New York. It taps into the emotions and connections your customers crave.

Boosts Your Marketing Efforts

Whether you're running ads, posting content, or launching a new product, your logo is always front and center. A high-quality logo design strengthens your entire marketing strategy because it's a consistent, eye-catching reminder of who you are.

There’s something empowering about having a polished, professional logo representing your business. You’ll be proud to hand out that business card, pitch your ideas, or post online knowing your logo speaks volumes. 

That kind of confidence comes from working with someone who truly understands logo design in New York.

To Wrap Things Up

When it comes to brand identity, never settle for average. Partnering with a trusted expert like Ideastream Marketing in Long Island ensures you get a custom, eye-catching logo design in New York tailored to your business. The right logo isn’t just art—it’s your future. Make it count.

Massive Study of 40 Countries Shows America Is an Outlier in the Worst Way

Study Finds By StudyFinds • Reviewed by Steve Fink Research led by Irene Papanicolas, Maecey Niksch, and Jose F. Figueroa (Brown University) Mar 24, 2025 Every single U.S. state saw increasing rates of avoidable deaths from 2009-2019, while most comparable countries improved their rates during the same period.Despite spending twice as much on healthcare as other developed nations, the U.S. shows…

Your Clothes Could Soon Charge Your Phone: New Thermoelectric Yarn Makes It Possible

— By StudyFinds Staff | Reviewed By Steve Fink | March 08, 2025 | Research led by Christian Müller, Chalmers University of Technology

Conceptual Image of a Man Walking on the Street with his Smartphone Being Charged by his Hoodie. AI-generated image created by StudyFinds

In A Nutshell

Scientists finally cracked the code on making fabric that can generate electricity from body heat by creating a special polymer coating for silk that stays stable for over a year—previously, similar materials would degrade within days when exposed to air.

This isn’t just lab-perfect technology—the coated silk yarn can survive through seven rounds in the washing machine while still keeping most of its electrical properties, and it can stretch quite a bit without breaking.

While we’re not charging smartphones with our t-shirts just yet (the power output is still very low), this breakthrough could realistically power small sensors embedded in clothing, like health monitors that wouldn’t need battery changes or charging.

Gothenburg, Sweden — Forget to bring your charger with you on vacation? What if your clothing could generate electricity from the heat your body naturally produces? This futuristic concept is now approaching reality thanks to scientists at Chalmers University of Technology in Sweden and Linköping University.

Researchers say the remarkable new textile technology converts body heat into electricity through thermoelectric effects, potentially powering wearable devices from your clothing. The innovation, described in an Advanced Science paper, centers on a newly developed polymer called poly(benzodifurandione), or PBFDO, which serves as a coating for ordinary silk yarn.

“The polymers that we use are bendable, lightweight and are easy to use in both liquid and solid form. They are also non-toxic,” says study first author Mariavittoria Craighero, a doctoral student at the Department of Chemistry and Chemical Engineering at Chalmers, in a statement.

Unlike previous attempts at creating thermoelectric textiles, this breakthrough addresses a critical barrier that has long hampered progress: the lack of air-stable n-type polymers. These materials are characterized by their ability to move negative charges and are essential counterparts to the more common p-type polymers in creating efficient thermoelectric devices.

“We found the missing piece of the puzzle to make an optimal thread – a type of polymer that had recently been discovered. It has outstanding performance stability in contact with air, while at the same time having a very good ability to conduct electricity. By using polymers, we don’t need any rare earth metals, which are common in electronics,” explains Craighero.

A research group, led by Chalmers University of Technology in Sweden, presents an ordinary silk thread, coated with a conductive plastic material, that shows promising properties for turning textiles into electricity generators. Here, a button is sewn with the new thread. Credit: Chalmers University of Technology | Hanna Magnusson

How Thermoelectric Textiles Work

Thermoelectric generators work by converting temperature differences into electrical energy. When one side of a thermoelectric material is warmer than the other, electrons move from the hot side to the cold side, generating an electrical current. The human body continuously generates heat, creating natural temperature gradients between the skin and the surrounding environment.

For efficient thermoelectric generation, both p-type (positive) and n-type (negative) materials must work together. While p-type materials have been well-established in previous research, creating stable n-type materials has been a persistent challenge. Most n-type organic materials degrade rapidly when exposed to oxygen in the air, often becoming ineffective within days.

What makes this development particularly exciting is the remarkable stability of PBFDO-coated silk. Unlike similar materials that degrade within days when exposed to air, these new thermoelectric yarns maintain their performance for over 14 months under normal conditions without any protective coating. The researchers project a half-life of 3.2 years for these materials – an unprecedented achievement for this type of organic conductor.

Beyond electrical performance, the mechanical properties of the PBFDO-coated silk are equally impressive. The coated yarn can stretch up to 14% before breaking and, more importantly for everyday use, it can withstand machine washing.

“After seven washes, the thread retained two-thirds of its conducting properties. This is a very good result, although it needs to be improved significantly before it becomes commercially interesting,” states Craighero.

The material also demonstrates remarkable temperature resilience. During testing, the researchers found that PBFDO remains flexible even when cooled with liquid nitrogen to extremely low temperatures. This exceptional mechanical stability allows the material to withstand various environmental conditions and physical stresses that would be encountered in real-world use.

SEM micrographs of a) the cross section of neat and b) a side view of PBFDO coated silk yarn sputtered with gold, and c,d) the cross section of silk yarn coated with PBFDO (No Gold Sputtering). Credit: Advanced Sciences

The Future of Daily Wear?

To showcase the technology’s potential, the research team created two different thermoelectric textile devices: a thermoelectric button and a larger textile generator with multiple thermoelectric legs.

The thermoelectric button demonstrated an output of about 6 millivolts at a temperature difference of 30 degrees Celsius. Meanwhile, the larger textile generator achieved an open-circuit voltage of 17 millivolts at a temperature difference of 70 degrees Celsius.

With a voltage converter, this could help power ultra-low-energy devices, such as certain types of sensors. However, the current power output—0.67 microWatts at a 70-degree temperature difference—is far below what would be required for USB charging of standard electronics.

While these power outputs mark a major step forward in thermoelectric textiles, it’s important to note that the temperature differences used in lab tests—up to 70 degrees Celsius—are significantly higher than what would typically be experienced in everyday clothing. This means real-world performance may be lower than laboratory results suggest.

Potential Uses In Healthcare And Wearable Tech

Despite current limitations in power output, the technology shows particular promise for healthcare applications. Small sensors that monitor vital signs like heart rate, body temperature, or movement patterns could potentially operate using this technology, eliminating the need for battery changes or recharging.

For patients with chronic conditions requiring continuous monitoring, self-powered sensors embedded in clothing could provide valuable data without the hassle of managing battery life. Similarly, fitness enthusiasts could benefit from wearables that never need charging, seamlessly tracking performance metrics during activities.

Beyond health monitoring, the technology could eventually support other low-power functions in smart clothing, such as environmental sensing, location tracking, or simple LED indicators. As power conversion efficiency improves, applications could expand to include more power-hungry features.

The Challenges Ahead

Currently, the production process is time-intensive and not suitable for commercial manufacturing, with the demonstrated fabric requiring four days of manual needlework to produce.

“We have now shown that it is possible to produce conductive organic materials that can meet the functions and properties that these textiles require. This is an important step forward. There are fantastic opportunities in thermoelectric textiles and this research can be of great benefit to society,” says Christian Müller, Professor at the Department of Chemistry and Chemical Engineering at Chalmers University of Technology and research leader of the study.

One key challenge identified through computer simulations is the electrical contact resistance between components. Reducing this resistance could potentially increase power output by three times or more. The researchers also investigated how factors like thermoelectric leg length and thread count affect performance, providing valuable insights for future designs.

Interest in these types of conducting polymers has grown significantly in recent years. They have a chemical structure that allows them to conduct electricity similar to silicon while maintaining the physical properties of plastic materials, making them flexible. Research on conducting polymers is ongoing in many areas such as solar cells, Internet of Things devices, augmented reality, robotics, and various types of portable electronics.

Imagine your clothing one day being capable of keeping your smartphone charged as you move. AI-generated image created by StudyFinds

Looking Forward

What’s clear is that there is a viable pathway toward practical thermoelectric textiles that can function reliably in everyday conditions. By addressing both the electrical and mechanical requirements for textile integration, this work bridges the gap between laboratory demonstrations and potential real-world applications.

The development of these polymers also aligns with sustainability goals by eliminating the need for rare earth metals commonly used in electronics. With further refinement and scaling of the manufacturing process, this technology could eventually lead to clothing that powers our devices using nothing but our body heat.

For widespread adoption, researchers will need to develop automated production methods that can efficiently coat and assemble the thermoelectric textiles at scale. Additionally, improving power output while maintaining stability remains a critical goal for future research.

Paper Summary

Methodology: The researchers coated ordinary silk thread with PBFDO polymer by dipping it into a specially formulated ink and drying it multiple times. They constructed two test devices: a button sewn onto wool fabric and a larger generator with 16 thermoelectric legs sewn through felt wool. Performance was measured by placing these devices between surfaces of different temperatures and recording the electricity generated.

Results: The PBFDO-coated silk achieved impressive stability, maintaining conductivity for over 14 months in normal conditions with a projected half-life of 3.2 years. It withstood stretching up to 14% and survived seven machine washings while retaining two-thirds of its conductivity. The larger textile generator produced 0.67 microwatts at a 70K temperature difference, while computer simulations suggested that optimizing electrical contacts could significantly boost performance.

Limitations: Power output remains low, suitable only for very low-power devices. Lab testing used temperature differences (up to 70K) much higher than typical real-world conditions, meaning actual performance would likely be lower. Production is currently time-intensive, requiring four days of manual work for a single demonstration piece. While stability is impressive compared to other similar materials, some degradation still occurs over time, particularly after washing.

Discussion and Takeaways: This research represents a breakthrough in creating stable n-type materials for thermoelectric textiles, potentially enabling practical applications in wearable technology. The work provides valuable insights for optimizing future designs, particularly regarding electrical contact resistance. By eliminating the need for rare earth metals, these organic materials also support sustainability goals. While commercial products are still years away, this development represents a significant step toward self-powered electronic textiles.

Funding and Disclosures: The research was supported by the European Union’s Horizon 2020 program (Marie Skłodowska-Curie grant), the Knut and Alice Wallenberg Foundation, the European Research Council, the Swedish Research Council, and Linköping University. Author Simone Fabiano is disclosed as a co-founder and chief scientific officer of n-ink, a company with potential interests in the technology.

Publication Information: Published in Advanced Science (2024) as “Poly(benzodifurandione) Coated Silk Yarn for Thermoelectric Textiles” by researchers from Chalmers University of Technology, Linköping University, and Chung-Ang University. Available as an open-access paper under Creative Commons Attribution License.

— About StudyFinds Staff: StudyFinds sets out to find new research that speaks to mass audiences — without all the scientific jargon. The stories we publish are digestible, summarized versions of research that are intended to inform the reader as well as stir civil, educated debate. StudyFinds Staff articles are AI assisted, but always thoroughly reviewed and edited by a Study Finds staff member.

Mysterious heat waves are popping up worldwide without explanation

Source: StudyFinds

Mysterious heat waves are popping up worldwide without explanation

Source: StudyFinds

"Boost Your Brand Reputation with High-Quality Mineral Water Solutions"

With the rising emphasis on health and wellness, mineral water plants have become essential for supplying pure, clean, and safe drinking water to the public. Setting up a high-quality mineral water plant is not only a smart business investment but also a significant contribution to community well-being. This article highlights the key benefits of using a mineral water plant and explains why Canadian Crystalline, a leading mineral water plant manufacturer in Chennai, is the ideal partner for businesses seeking exceptional solutions.

What Is a Mineral Water Plant?

A mineral water plant is a complete system for turning raw water into premium drinking water enhanced with minerals. Advanced technologies including ozonation, remineralization, UV sterilization, and reverse osmosis are used in these factories. The ultimate product is water that meets high-quality standards while providing key health advantages.

Advantages of Using a Mineral Water Plant

1. Ensures Safe and Hygienic Water

A mineral water plant's main advantage is its capacity to deliver water devoid of dangerous contaminants such as bacteria, viruses, heavy metals, and chemical pollutants. Mineral water facilities use complex filtering technologies to remove contaminants from water, making it clean and safe.

2. Enhances Mineral Content

Mineral water plants replenish critical minerals such as calcium, magnesium, and potassium in purified water, providing considerable health advantages. These vital minerals enhance digestion, promote hydration, and support all body processes.

3. Compliance with Quality Standards

Mineral water facilities are built according to worldwide and national water quality requirements, including those set forth by the WHO, FSSAI, and BIS. This compliance assures that the water generated is safe to drink and of the highest quality.

4. Boosts Brand Reputation

Offering pure and mineral-rich water benefits the brand name of bottled water companies. The continuous quality of a modern mineral water plant helps businesses gain the trust and loyalty of their customers.

5. Supports Sustainability

Wastewater recycling systems and energy-efficient technology are features of contemporary mineral water facilities. This lessens the effect on the environment and encourages sustainable behaviors, which are becoming more and more significant to customers.

6. Cost-Effective in the Long Run

Due to effective procedures and less waste, the long-term operating costs of a mineral water factory are low, despite the initial expenditure required for setup. Companies that meet the constantly increasing demand for bottled water can see a significant return on their investment.

7. Versatility Across Industries

Mineral water plants are not limited to bottled water manufacturers. They are widely used in industries such as pharmaceuticals, food and beverage, and hospitality, where high-quality water is essential.

Steps Involved in Setting Up a Mineral Water Plant

Analysis of Water and Feasibility StudyFinding the composition and contaminants in the source water is the first step in the process. This makes it easier to develop a plant that meets the project's unique requirements.

Design and Layout of Plants Canadian Crystalline develops a thorough design and layout based on the water analysis, guaranteeing the best possible use of available space and process effectiveness.

Purchasing and Setting Up Experienced personnel oversee the procurement, installation, and integration of top-notch equipment into a smooth manufacturing line.

Assurance of Quality and Testing To make sure all systems operate well and satisfy regulatory requirements, the plant is put through a rigorous testing process prior to commissioning.

Instruction and Upkeep

Canadian Crystalline offers routine maintenance services and training to the client's staff to guarantee long-term performance.

Purchasing a mineral water facility is one way to guarantee a lucrative and sustainable future for the bottled water sector. A mineral water plant has many benefits, such as better water quality, standard compliance, and long-term cost savings, making it essential for companies looking to provide high-quality drinking water.

Canadian Crystalline is the obvious choice when selecting the top mineral water plant manufacturer in Chennai. They are your reliable partner in establishing a top-tier mineral water factory because of their state-of-the-art equipment, unparalleled experience, and dedication to quality.

7 Best Night Vision Goggles For Exploring In The Dark, Per Expert Reviews

magine stepping into the darkness and seeing the world come alive in vibrant detail. Night vision goggles have revolutionized our ability to explore and navigate in low-light conditions, transforming pitch-black environments into crystal-clear landscapes. Whether you’re an outdoor enthusiast, a security professional, or a wildlife observer, having the right pair of night vision goggles can make all the difference. In this article, we dive into the best night vision goggles on the market, examining their features, performance, and why they stand out, so you can choose the perfect pair for your nocturnal adventures. We put together our list by combing through 10 existing reviews to come away with the aggregate picks across the board. Did we miss a pair you recommend? Let us know in the comments.

Best Night Vision Goggles, According to Experts

1. Nightfox Swift Night Vision Goggles

First on our list is Nightfox Swift Night Vision Goggles. “The Nightfox Swift is a great entry-level product for those who want to see at night, especially in close range. But, unlike many other night vision goggles, these do not provide any magnification and have an admittedly limited effective range of about 75 yards. As a result, these are best for nearby viewing, like home security or moving through a dark area without needing to know what is far off in the distance.  You can use these goggles hands-free thanks to pre-equipped headgear. It lets your night vision easily move with you. Adjustments to brightness and IR levels are easily made with simple buttons on the rubberized goggle body. The overall user interface is intuitive and should offer most users few issues. These goggles are rechargeable with about three hours of battery life. And they are smaller than most other options making them great for travel, so long as you have the ability to recharge them regularly,” writes Pop Photo.

Sporting these gives off a futuristic, tech-savvy vibe. “While some night vision goggles rely exclusively on enhancing ambient light to improve the user’s vision, this set by Nightfox Swift uses infrared (IR) light to create images, even when it’s pitch black. They have multiple IR levels that allow for improved clarity in varying light levels, making them ideal for the early morning or late evening. This sets runs on rechargeable batteries, instead of forcing the user to repeatedly purchase six to eight disposable batteries, like some other products. When fully charged, the goggles can last for up to three hours of runtime.

FULL STORY:

Αυτά είναι τα 7 πιο υπερεκτιμημένα τουριστικά αξιοθέατα στις Η.Π.Α.-Τα 7 πιο υπερεκτιμημένα τουριστικά αξιοθέατα στις ΗΠΑ ανέδειξε σε πρόσφατη έρευνά της η StudyFind. Για το σκοπό αυτό ανέλυσε 10 ιστότοπους κριτικών ταξιδιών και τουρισμού. No. 1 Όρος Ράσμορ Αν και είναι ένα ιστορικό μνημείο, οι ταξιδιώτες μπορεί να είναι λίγο...

Exercise ‘sweet spot’ for maximum weight loss revealed

 Posted onDecember 28, 2024

https://naturalblaze.com/2024/12/exercise-sweet-spot-for-maximum-weight-loss-revealed.html

By StudyFinds

For decades, health experts have preached the benefits of regular exercise for weight loss, but how much do you really need to see results? New research finally maps out the dose-response relationship between aerobic exercise and weight loss, offering concrete guidance for the millions struggling with overweight and obesity.

Researchers from Semnan University of Medical Science in Iran analyzed 116 randomized clinical trials involving 6,880 participants to determine exactly how much aerobic exercise leads to meaningful changes in body weight, waist circumference, and body fat. Their findings revealed that every additional 30 minutes of weekly aerobic exercise was associated with losing about 1.15 pounds of body weight, reducing waist circumference by 0.56 cm, and dropping 0.37% in body fat.

While these might seem like modest gains, they accumulate significantly as exercise time increases.

How long should you exercise for weight loss?

The study, led by Dr. Ahmad Jayedi, a postdoctoral research associate at Imperial College London’s School of Public Health, revealed that 150 minutes of moderate-intensity aerobic exercise per week — the current recommended minimum in most health guidelines — marks an important threshold. At this level, participants began seeing clinically meaningful reductions in waist circumference and body fat measurements, with average weight loss of 6.15 pounds.

When participants increased to 300 minutes per week, they experienced even greater results, with weight loss reaching an average of 9.24 pounds, along with proportional reductions in waist size and body fat. This demonstrated a clear linear relationship between exercise duration and weight loss outcomes.

Missing Link Found? Study Reveals Potential Hot Spring Birthplace of Early Life

Missing Link Found? Study Reveals Potential Hot Spring Birthplace of Early Life JANUARY 15, 20242 COMMENTS by StudyFinds Staff 🔑 Key Findings: Living cells may have originated from non-living material 3.5 billion years ago The creation of fatty acids is critical for early cell development Similar events may be happening on icy moons in our solar system NEWCASTLE, United Kingdom — Can…

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Jazyk jako okno do našeho zdraví. AI oživuje 2000 let starý způsob diagnostiky nemocí

Praktika, která je v čínské medicíně zakořeněná již více než dvě tisíciletí – zkoumání příznaků nemoci z lidského jazyka – se díky umělé inteligenci opět dostává do popředí moderní zdravotní péče. Podrobnosti o zajímavém výzkumu, jehož výsledky byly publikovány v odborném časopise AIP Conference Proceedings, přináší web StudyFinds.