#Li-Polymer battery
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#Lithium polymer battery#Buy High Quality LiPo battery#Buy Lithium Polymer#LiPo Batteries Online in India#Lithium Polymer batteries#Lithium Polymer Battery Technology#Li-Polymer battery#Polymer-based battery
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#sony xperia 5 v#smartphone#Gorilla Glass Victus 2#waterproof#oled display#120hz refresh rate#Rear Dual Camera#Phasedetectionautofocus#Face Unlock#Android 13#octa core#snapdragon 8 gen 2#stereo speakers#Side Fingerprint Sensor#5000 mAh#Li-polymer Battery#fast charging#qi wireless charging
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Top Li Polymer Battery Manufacturers
Discover leading Li polymer battery manufacturers known for producing high-quality, reliable batteries. Our cutting-edge technology and rigorous quality control ensure long-lasting performance and safety. Ideal for a wide range of applications, from consumer electronics to industrial equipment. Explore our comprehensive range of Li polymer batteries designed to meet your specific needs. Contact us today for custom solutions and expert support.
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Greetings yet again folks! Before today's news i should ask this: what would you think when wearable tech is mentioned? AR/VR glasses? A smart watch? a pair of fancy glasses? nfc based products or was it something else for you?
what if i tell you there is a battery that is so stretchable and bendable that can be tailored between linings of your clothes now what would you think?
Meet the age of stretchable batteries people!
in that case i should mention when people of today was so busy with nonsense politics and rightist or leftist ideas there were quite a race between the biggest tech schools and companies for manufacturing this tech such as apple, samsung, stanford, Yokohama National University, zotach (japan based wearable tech company), sydney's UNCW, Australian research comity and more.. you get the idea..
so what is this tech in its core?
basically building more softer and more long term reliable materials to replace our common daily use batteries
in term of materials it nearly uses our common li-on batteries but these are mainly works like electrodes and often use polymers, hydrogels, and other flexible materials for electrodes and electrolytes. we can see in recent inovations include the use of stretchable conductors like gold nanowires or carbon nanotubes.
BUT what these mambo, jambo, wombo, combo means for public eye?
much longer active use time, higher adaptability, flexible form factor yet lower energy and power density.
for now this tech has been used in certain medical implant cases, wearable techs, tv's, and watches for now but there is some attempts to imply this in to textile industry recently..
and japan is seems like ahead of the race for now with Zotac’s VR GO 4.0 backpack
this is a backpack pc and its power source is tailored between in entire foam/ fiber pad. this "pc" is specifically made for VR/AR and streaming which includes
11th Gen Intel Core Mobile i7-11800H processor, an NVIDIA RTX A4500 graphics card with 20GB of GDDR6 memory and 7,168 CUDA cores, 16GB (32GB maximum) of DDR4 RAM, an M.2 slot for storage, a 2.5′ SATA 3 hard drive/SSD bay for storage, three USB 3.1 Type-A ports, a single USB 3.1 type-C port, DisplayPort, and a 12V DC outlet, all powered by dual 86.4 watt-hour hot-swappable batteries.
like i said this tech is still under developement stage and people still trying to make this tech better than other compettitives...
time will show us what will it gonna be turn out at the end..
lastly.. see you guys tomorrow...
sources:
https://onlinelibrary.wiley.com/doi/10.1002/adma.202204457
#tech#tech news#daily news#cyberpunk#future tech#scifi tech#research#rnd#r&d#battery#stretchable battery#apple#stanford#samsung#labs
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Best Power Banks for Phones: Why You Need One
If you're like me, always on the go and constantly using your phone, having a reliable power bank is a game-changer. Whether you're traveling, working, or just out and about, having a backup power source for your phone can be a lifesaver. That's where the 10000mAh Li-Polymer power bank comes in.
## Cell Type: 10000mAh Li-Polymer
Let's talk about the cell type first. The 10000mAh Li-Polymer battery is a powerhouse when it comes to charging your devices. With a high capacity of 10000mAh, you can recharge your phone multiple times before needing to recharge the power bank itself. This means you can stay connected and powered up throughout the day without worrying about running out of battery.
## Input/Output: 22.5W and Interface Options
The 10000mAh power bank offers fast charging capabilities with an input/output of 22.5W. This means you can quickly recharge your devices without having to wait around for hours. Additionally, the power bank comes with multiple input/output interfaces, including Micro-USB, Type-C, and double USB ports. This versatility allows you to charge multiple devices at once, making it a convenient option for busy individuals.
## Featured Benefits: Small Body, Large Capacity
One of the standout features of the 10000mAh power bank is its small body and large capacity. Despite its compact size, this power bank packs a punch when it comes to charging power. With a capacity of 10000mAh, you can rely on this power bank to keep your devices charged throughout the day. Additionally, the 22.5W super fast charge ensures that your devices will be charged quickly and efficiently.
In addition to its impressive capacity and fast charging capabilities, the power bank also comes with 3 cables – Micro, Lightning, and Type-C ports. This means you can charge a variety of devices, regardless of their charging port type. The convenience of having multiple cables included with the power bank makes it a versatile and practical option for anyone on the go.
So, if you're in need of a reliable and efficient power bank for your phone, the 10000mAh Li-Polymer power bank is a great choice. With its high capacity, fast charging capabilities, and versatile interface options, this power bank has everything you need to stay connected and powered up wherever you go. Say goodbye to low battery anxiety and hello to uninterrupted power with this top-notch power bank.
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Xanthan gum, derived from plants like cabbage and known for its carbohydrate content, serves as a natural protective barrier in cosmetics. In a recent development, this remarkable substance has been harnessed to create a protective shield for battery electrodes, rather than for the skin.
Professor Changshin Jo from the Graduate Institute of Ferrous & Eco Materials Technology and the Department of Chemical Engineering and Jooyoung Jang, a PhD candidate, from the Department of Chemical Engineering at Pohang University of Science and Technology (POSTECH), have crafted a protective film by blending polymers. This film enhances the durability of battery electrodes, and their research findings have been featured in the international journal Energy Storage Materials.
With renewable energy sources like solar power being inherently intermittent, the importance of energy storage systems (ESS) is steadily growing. ESS technology enables the capture and efficient use of electricity when needed, making it a crucial element in harnessing renewable energy. While lithium-ion (Li-ion) batteries have traditionally been employed for ESS applications, their high cost and concerns about lithium depletion have prompted ongoing research into alternative solutions.
Read more.
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Converting a battery backup to Lithium because I hate myself
I've got a whole bunch of battery backups in my home, one on each computer, and a big one in my server rack in the basement. I've also got a few out "in the wild" at some of my family's places. They're great, where I live in the northeast US, the power grid is stable enough that most outages are only minutes long, and these backups (technically called a UPS - Uninterrupted Power Supply) do a great job keeping computers running through them.
My issue is the batteries. They all run on lead acid batteries, aka the same kind that's in your car, and they dont last long in this kind of environment, I'm lucky if I get 3 years out of one. On top of that, their battery life detection is terrible, It's about a 50/50 shot whether I get a warning about a dead battery pack before the next power outage takes it down without warning. Keeping track of that with just one or two is annoying, let alone 10 of them!
Lithium UPS's exist, and theoretically last many years longer, but they are many times more expensive than a normal backup. I'd like to not spend new-car money replacing a dozen UPS units, so I did some math instead.
I have a husk of a ups (no battery), and I tested it out: the open circuit voltage on the battery cable is 27.6 volts, which just happens to be almost the exact voltage needed to float charge a series of 8 Lithium-iron-phosphate (LiFePo4) batteries!
Why is that exciting? Usually when you think of lithium batteries, you think of lithium-ion (also can be called lithium-polymer) batteries. These are the batteries in your laptop and phone... And also Tesla cars. They hold more energy than a LiFePo4 battery, but are very sensitive to temperature, over and under-voltage, over-charging, and over-current conditions. Abuse them too hard, and they swell up and pop! That's why Teslas seem to catch fire more often than other cars: most other companies gave up range for a battery chemistry that isn't a ticking time bomb, like LiFePo4.
These LiFePo4 batteries can take a beating compared to Li-ion ones. Most importantly, they can be "float" charged, that is, left on the charger 24/7, without worrying about overcharging it and blowing caustic smoke everywhere. This is critical, because I'm attempting a direct drop-in swap for the old lead battery in this UPS, because float charging a lead battery is basically a requirement, and doing that to a Li-ion battery is asking for a fire!
Using a Li-ion pack would require a custom charging circuit, as the UPS's 27.6V is not correct for any configuration of Li-ion, and would either under charge the pack, losing me 50% of my capacity, or overcharge it, and make it explode. It would also have to stop the batteries from being float charged, again to keep the battery from exploding, while fooling the UPS into thinking a battery is still attached so it doesn't beep at me all the time, and my head is spinning just thinking about how that would work. Much easier to give up capacity for a simpler, and more robust battery.
This UPS can deliver 900 watts of power on battery, that equates to roughly 30 amps of current from the 27.6V battery pack. Adding a safety factor, I bought a BMS (Battery Management System) rated to 50 amps. A BMS is essential, as it offers extra protection against short circuits, over and under-charging and temperature cutoff. Also cell balancing, which keeps all the cells at the same level of charge during use (if they go out of sync-that's bad, is all I'll say for now). The batteries are rated for 120 amps continuous draw, so I am well under the limit where the cells would self-immolate.
With all that said, here's the guts:
Looking close, you might see that I had to cut some plastic out to make it all fit. That's an error on my part-I didn't measure right. If I make more, I'll definately be using a smaller cell, so it will be a proper "drop in" mod. Lots of drilling, cutting, and filing to make this all fit!
It took several hours to link up the cells, terminate the balancing wires (the small red spindly ones), and and stuff them in the battery box. That's a LOT longer than I was hoping it would take, but the on-the fly mods took a lot of time. but eventually, it all fit in, and I was able to test it:
It works! I unplugged it from the wall, and it stayed on! For now, I am in full helicopter parent mode, since I don't want to deal with a lithium fire, even though my math checks out and the UPS should never get the the point that these cells are ever "abused". I only leave it on when I'm in the room, and when I leave, I unplug from the wall, and remove the red lead from the battery, so no charge enters or leaves while I'm not there to watch it.
In theory, the only issue with this retrofit will be a useless runtime meter. The "minutes of runtime" meter is measuring the voltage of the battery as it discharges to estimate how much longer it will last, and the voltage drop over time is different for lithium and lead, so the meter won't be measuring accurately. Once I'm confident it won't explode randomly, I will likely install it permanently somewhere in one of my compters.
Wish me luck!
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please share with the class the most novel misadventure in good lab conduct you've had to live through. bureacratic or clerical issues included + bonus points if you're implicated
Once upon a time, there was a trio of research assistants. These research assistants worked with alkali metals in their daily life; they knew quite well, of course, that alkali metals react with water (rapidly and violently) and air (slowly, but the oxide created is explosive.)
These research assistants made some Li-metal batteries to test the durability of a certain polymer material under the electromagnetic and physical stress of being in a battery. They took the batteries that shorted back to the wet lab and opened them up to remove the polymer material and see if it had any notable differences to before it was tested. The disassembly went fine (though they had to use a manual file as using a mechanical one would have possibly created a heat enough to have ignited any lithium oxide that was there.) They removed the polymer material and stored it for safekeeping, but now they had a bunch of lithium metal outside of inert atmosphere.
The oldest research assistant wanted to know where the liquid to store the lithium metal was (as in organic solvents lithium generally won't oxidize.) The middle research assistant had fucking had enough after the filing escapades, and gestured vaguely to the back of the lab. The youngest research assistant figured that they'd go look for some mineral oil, since that's the most commonly used liquid to immerse alkali metals in for safekeeping.
However, when the oldest and youngest research assistants looked around the lab, they saw that the mineral oil was out of reach of both of them. (Neither of them was >165cm, you see, and it was on a high shelf.) However, that was fine. There were other organic solvents in the lab, at a much more reasonable height (in the flammables cabinet.) The oldest research assistant looked through the cabinet, but most of them were not in sealed containers- water might have gotten in. In addition, some of them were less than 99% what they were supposed to be, therefore some of that impurity could be water.
The oldest research assistant pulled out one of the few sealed bottles that was 99.9% pure (HPLC grade). They poured some of the liquid into a beaker- enough to cover all the pieces of lithium metal that remained. The liquid, by the way, was 99.9% pure dry methanol.
The two research assistants carefully placed the lithium metal in the beaker in the fume hood. They then proceeded to immediately slam the fume hood sash down.
You see, dear reader, alkali metals don't just react with water. Though that's what you'll see if you read about them online, they actually just really like to form hydroxides. So if something has an OH group attached to it, alkali metals will react. Oftentimes more rapidly than with water!
The lithium chunks were fizzing, hissing, and skidding around on the surface of the water inside the fume hood. Luckily for us, however- I was the youngest research assistant in this scenario- we were working with lithium, the most electronegative and lightest of the alkali metals. Due to this higher electronegativity, it reacts less rapidly with OH groups than the heavier alkali metals do. So there was no explosion, as fun as that might have been with the sash down. The moral of the story is to use your head about chemical interactions, and don't believe everything you read on university EHS websites.
Anyway, the oldest research assistant is working at one of the top universities in the country now. I wish them all the best.
#i think you've already heard my tales about non-safety-related bad lab conduct#there's other unsafe stuff that's happened but unfortunately it's just fairly mundane
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Honor 90 Price in India 2023, Specs - RecycleDevice Blog
Honor 90 Price In India
Honor 90 Details
Design & Display
The Honor 90 has a 6.7-inch (17.02 cm) AMOLED screen with a 1200 x 2664 pixel resolution. The front camera is accessible through a punch hole in the bezel-less design. The screen has a 1600 nits brightness rating and a pixel density of 436 ppi. It allows for capacitive, multi-touch input and displays 1B colour reproduction. The ratio of the screen to the body is around 90.34 percent. It comes in Midnight Black, Emerald Green, Diamond Silver, and Peacock Blue colour variants and weighs 183 grammes. For quick and safe access, the phone has fingerprint and face unlock options.
Camera
The Honor 90 has a triple back camera system that includes a 200 MP main camera with a wide-angle lens and an f/1.9 aperture, a 12 MP ultra-wide-angle lens and a 2 MP depth sensor, both with f/2.2 apertures. A single 50 MP sensor with an ultra-wide-angle lens and an f/2.4 aperture makes up the front camera. While the front camera can also record films at the same quality and frame rate, the back camera can only record videos at a maximum resolution of 3840x2160 pixels at 30 frames per second.
Performance & Storage
The Honor 90 is equipped with an octa-core Qualcomm Snapdragon 7 Gen 1 CPU that powers it from the inside out. For seamless multitasking, it has 12 GB of RAM. Internal storage for the gadget is 256 GB, and it runs the Magic UI version of the Android v13 operating system.
Battery & Connectivity
A non-removable Li-Polymer battery with a capacity of 5000 mAh powers the phone. When a quick recharge is required, it offers 66W fast charging technology. The Honor 90 includes two Nano SIM slots that can accommodate both 5G and 4G networks in a dual SIM configuration. It is also possible to use voice over LTE (VoLTE). The gadget has Wi-Fi connectivity with compatibility for a number of bands, including 5GHz and a/ac/ax/b/g/n. Smooth communication choices are provided via Bluetooth v5.2, USB Type-C with USB OTG compatibility, GPS with A-GPS and Glonass, NFC, and infrared.
The Latest Honor 90 News
Pricing for the Honor 90 is Speculated for a Mid-September India Launch
The Honor 90 smartphone's forthcoming debut date and price in India have been made public according to a report.
Honor 90 India Release Date Predicted for September; 300MP Triple-Camera Setup and Snapdragon 7 Gen 1 SoC Are Included.
A high-end mid-range smartphone called the Honor 90 will soon be available in India. In India, the smartphone is anticipated to go on sale in September.
Disclaimer: Specifications shown may be different from the actual product. We cannot guarantee that the information provided on this page is 100% correct. Please check with the retailer before purchasing. you have old mobile phone then sell your old Mobile Phone or any other Smartphone at RecycleDevice for good exchange value.
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JBL Flip 6 Bluetooth Speaker Waterproof
Description:
Model No.: JBL Flip 6
Output power: 20W RMS for woofer,10W RMS for tweeter
Frequency response: 63Hz – 20kHz
Signal-to-noise ratio: >80dB
Battery type: Li-ion polymer 17.28Wh(equivalent to 3.6V/1500mAh)
Battery charge time: 2.5 hours (5V/3A)
Music play time: up to 12 hours (dependent on volume level and audio content)
Cable type: USB – C charging cable
Cable length: 1.2m/47.2″
Maximum…
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We’re always on the go (and glued to our phones)…and that can lead to battery dwindling fast. Our Leather-Surface Power Bank helps solve that issue with a ready-to-go (and power up on the go) device.
✅ 8000mAh
✅ Rechargeable li-polymer battery
✅ 5V input/output
✅ Supports microUSB and Apple devices
Get 15% off with promo code UNILX200231. Order now before the offer ends!
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#Lithium polymer battery#Buy High Quality LiPo battery#Buy Lithium Polymer#LiPo Batteries Online in India#Lithium Polymer batteries#Lithium Polymer Battery Technology#Li-Polymer battery#Polymer-based battery
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Realme 10 Pro Coca-Cola Edition 5G
Realme 10 Pro Coca-Cola Edition 5G Price & Specifications
🔥 Display: 6.72 inches 1080x2400 px (IPS LCD)
🔥 OS: Android 13, Realme UI 4.0
🔥 CPU: Qualcomm SM6375 Snapdragon 695 5G (6 nm)
🔥 Storage: RAM: 8GB & ROM: 128GB
🔥 Camera: Back: 108MP+2MP & Front: 16MP
🔥 Battery: Li-Polymer 5000 mAh (33W fast charging)
🌐 Visit our site for Realme 10 Pro Coca-Cola Edition 5G Price & Specifications
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High-Performance Smart Li-Polymer Battery Packs
Discover the latest in battery technology with our high-performance smart Li-Polymer battery packs. Designed for optimal efficiency and longevity, these advanced battery packs feature intelligent monitoring systems that ensure safety and reliability. Ideal for a wide range of applications, from portable electronics to electric vehicles, our smart Li-Polymer battery packs deliver exceptional power density, fast charging capabilities, and long-lasting performance. Upgrade to smarter energy solutions today.
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The Perfect Fashion Accessory: Mirror Surface Mini Power Bank
If you're someone who is always on the go and needs to keep your devices charged up, then the Mirror Surface Mini Power Bank is the perfect solution for you. Not only does it provide you with the power you need to stay connected, but it also doubles as a fashion accessory that will complement your style.
## Cell Type: 10000mAh Li-Polymer
When it comes to the cell type of a power bank, the 10000mAh Li-Polymer battery in the Mirror Surface Mini Power Bank is top-notch. This high-capacity battery ensures that you can charge your devices multiple times before needing to recharge the power bank itself. With this kind of power at your fingertips, you'll never have to worry about running out of battery again.
## Display Support and Fast Charging
The Mirror Surface Mini Power Bank supports DisPlay, allowing you to easily check the battery level and other important information at a glance. Additionally, it features fast charging capabilities, so you can quickly get your devices up and running in no time. Say goodbye to long charging times and hello to fast and efficient charging with this power bank.
## Input/Output: 5V/2A and Multiple Interfaces
With an input/output of 5V/2A, the Mirror Surface Mini Power Bank provides a steady and reliable charge to your devices. It also comes equipped with multiple interfaces, including Micro-USB, Type-C, Double USB, and Lightning, giving you the flexibility to charge a variety of devices with ease. Whether you have an Android or iOS device, this power bank has you covered.
## Ultra Slim Design and Stylish Mirror Surface
One of the standout features of the Mirror Surface Mini Power Bank is its ultra-slim design. This sleek and compact power bank can easily fit into your pocket or purse, making it convenient to carry with you wherever you go. Additionally, the mirror surface adds a touch of style and sophistication to the power bank, making it the perfect blend of fashion and function.
In conclusion, the Mirror Surface Mini Power Bank is a must-have accessory for anyone who values both style and functionality. With its high-capacity battery, fast charging capabilities, and sleek design, this power bank has everything you need to stay connected on the go. Say goodbye to dull and boring power banks and hello to the perfect blend of fashion and function with the Mirror Surface Mini Power Bank.
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