ASUS at CES 2024 reveals 14-inch dual-screen laptop, sustainable solutions

Laptops are an integral part of modern-day computing, practically replacing laptops because of their increasing capabilities and versatility. For years, it almost seemed as if innovation in this space has mostly plateaued, simply getting more of the same things, such as more processing power, more heat, more weight, and more costs. That’s no longer the case, thankfully, as major PC brands start taking risks and pushing the boundaries of what laptops are capable of, like the world’s first 14-inch dual-screen laptop that ASUS is showing off at CES 2024. In its search for incredible, however, ASUS has also learned of the weight of its responsibility to help heal the planet and keep it alive far longer, and it is showing exactly how much it has progressed in its commitment to improving not only the quality of its products but also their sustainability.

Designer: ASUS

ASUS ZenBook DUO (2024)

There will come a time when the foldable craze in the smartphone industry will also grip PCs, but that time hasn’t come yet. Instead, there is a precursor to this fad, one that is both more usable but also admittedly a bit more novel. Taking a cue from the canceled Microsoft Surface Neo, ASUS revealed the first commercial dual-screen laptop back in 2019 and is now showing off the refinement it has accomplished that makes the new ZenBook DUO (2024) more than just a novelty.

The ZenBook DUO’s spiel is simple enough. Why settle for a single screen when you can have two wherever you go? And you don’t have to carry around a portable monitor along with your laptop just to accomplish that, because that second screen is your laptop. With a detachable full-sized Bluetooth keyboard that can instantly snap into place, you can have a traditional laptop experience when you want to and a portable two-monitor setup when you need to. This year’s model takes that design up a notch with the largest screens in this niche category, two 14-inch 3K 120Hz OLED screens, to be exact. When unfolded, you’re practically getting a 19.8-inch monitor, albeit one that has a rather wide split down the middle.

Of course, the ZenBook DUO (2024) also steps up the game with upgraded specs, starting with an all-new Intel Core Ultra 9 series processor and up to 32GB of LPDDR5x RAM. That means that the dual-screen laptop is well-equipped to handle AI-related tasks, like optimization, content creation, and more. Both of the screens support high-precision stylus input, making it a superb tool for digital design and collaboration. Thanks to its flexible and versatile design, the ZenBook DUO can offer value to any user, whether they’re a knowledge worker, a programmer, a creator, or anything in between. The ASUS ZenBook DUO (2024) UX8406 goes live in Q1 2024, with availability details to be announced closer to the launch date.

Computing for all

Of course, ASUS has more than a handful of new computers to show off at CES 2024, and, unsurprisingly, quite a number of them are carrying the AI flag. The business-minded ASUS ExpertBook B5, for example, has three AI engines courtesy of an Intel Core Ultra 7 processor. With NVIDIA GeForce RTX 2050 laptop graphics, it can handle plenty of workloads, including creating graphics or maybe even a bit of gaming on the side. A magnesium-aluminum alloy chassis gives it a professional aesthetic, while the US MIL-STD certification guarantees its survival against accidents.

The ASUS ExpertBook CX54 Chromebook Plus brings that same business sense to Google’s fleet of Chrome OS notebooks. Equipped with Intel Core Ultra processors and enterprise-level management tools, this eco-conscious Chromebook is an ideal candidate for workplace deployment, whether it’ll be used in the office or out in the field.

The ASUS Vivobook S laptops, on the other hand, offer thin and lightweight options for more budget-conscious consumers. Bearing a choice of Intel Core Ultra or AMD Ryzen processors, these ultra-portable computers are more than capable of supporting AI-enabled applications and services, as proven by the dedicated Windows Copilot key that is trending on this season’s laptops. Designed with collaboration and entertainment in mind, the Vivobook S14 and S16 laptops can lay flat at 180 degrees, have an IR camera with a physical shutter button, and immersive Dolby Atmos audio firing off Harman Kardon-certified speakers for an unbeatable user experience.

In addition to its Republic of Gamers brand, ASUS is also growing its own TUF line of gaming laptops. Putting durability and military-grade toughness as a top priority, these powerful machines make no apologies for their rugged looks. Thankfully, those rugged looks have their own charm, and ASUS didn’t go overboard with RGB styling other than on the keyboard. The latest Intel Core Ultra and AMD Ryzen 9 processors not only give it the silicon muscles every gamer needs but also enable AI-assisted capabilities for better performance, whether for play or for work.

Sustainability for a Greener Tomorrow

With this many laptops every year, it’s only natural for a giant like ASUS to ask itself how much its products and their production are affecting the environment. The answer, of course, isn’t that encouraging, but thankfully ASUS is committed to changing that for the better. It has been pushing forward multiple initiatives across its businesses to reduce its negative impact or at least offset them by doing good work to heal the environment.

Focusing on the products themselves, ASUS is ensuring that many of its laptops meet the MIL-STD 810H durability standard so they don’t end up in landfills sooner than they should. It has also been increasing the use of post-consumer recycled (PCR) plastics and other recycled materials in these devices. The ASUS ZenBook DUO (2024), for example, is made from 90% post-industrial-recycled (PIR) magnesium-aluminum alloy. Similarly, the ASUS Expertbook CX54 Chromebook Plus uses 30% PIR eco-friendly material and is crafted using renewable energy. And, of course, it has been using recycled materials in its packaging to further reduce the impact of even the smallest accessory.

Whether it’s in the products themselves, the way they are produced, or its day-to-day operations, ASUS is loudly displaying its unwavering commitment to sustainable practices as it continues to search for the incredible. After all, innovation (and profits) will definitely take a backseat when humanity struggles to survive in a damaged world.

Cardboard water bottle concept shows a more sustainable way to stay hydrated

We’re often advised to drink lots of water every day, but that isn’t always feasible unless we have a bottle of water with us all the time. It’s for this reason that water bottles have become quite popular these days, but many of these containers are large, heavy, and sometimes unsustainable. The latter is especially true for PET bottles, the most overused kind of water container there is. Its small, lightweight size makes it easy to carry around and its plastic material might make it seem like a good idea to reuse the bottle over and over again. Whatever the context, plastic is a harmful material in the long run, so this reusable and sustainable water bottle looks elsewhere for inspiration, one that’s easily overlooked and taken for granted because we simply throw away milk and juice boxes the moment they’ve been emptied.

Designer: Rishikesh Sonawane

It might have different names in different countries, but “TetraPak” is a common sight in groceries and refrigerators, holding liquids like milk, juice, and sometimes even soup. These cardboard containers are indeed designed to be thrown away, but there’s no reason one can’t design a variant that can hang around for quite a while before you have to part ways, primarily by recycling its parts. It lets you keep yourself healthy by drinking lots of water while also keeping the planet healthy by reducing the number of PET bottles out in the wild.

reU is the design concept that puts those ideas together, utilizing a layer of cardboard, aluminum, and polyethylene to provide form and structure to the water bottle shaped like an overgrown flask. These three materials were specifically chosen after much consideration because of their long-term benefits and ease of production, despite there being more sustainable alternatives available. Cardboard is better than paper mache when it comes to integrity and finish, aluminum is cheap and easily stretched into extremely thin sheets, and polyethylene, which is used in only 5% of the total design, is easy to produce.

The design, however, goes beyond just using sustainable materials. The shape of the “bottle”, for example, was chosen for space efficiency and easier grip. The dotted bottle cap made from bioplastic offers not just texture for turning the cap but also a visual contrast to the vertical lines running down the side of the bottle. The rubber tab keeps the cap in place and functions as a strap to hold or hang the bottle, but it can also be retracted to keep the cap from swinging around while you’re drinking or pouring out its contents.

Despite being a reusable bottle, reU isn’t meant to last forever. In fact, it’s designed to wear out to the point that you’ll have to properly dispose of it by recycling each distinct component separately and properly. This ensures that the water you drink will always be clean and safe, something that PET bottles can guarantee after repeated use. And given how cheap it is to produce and how easy it is to recycle, there’s little harm in replacing the reU with another reU, over and over again.

Combining Nature And Technology For Sustainable Plant Care

In the realm of biomimicry, the Fog Smart Hydroponic Planter stands out as a futuristic marvel inspired by the incredible abilities of the fog-basking beetle. It is a masterpiece that seamlessly blends the brilliance of biomimicry, advanced materials, and smart technology. Inspired by the fog-basking beetle native to the Namibian deserts, this hydroponic planter is not merely a vessel for plants but a pioneering solution that promises a greener, more sustainable future.

Designer: Rishikesh Sonawane

Biomimicry is a practice that learns from and mimics the strategies found in nature to solve human design challenges. The fog-basking beetle, a tiny inhabitant of the Namibian deserts, can thrive in arid conditions by extracting moisture from the surrounding fog. Its microstructural adaptations, enhancing surface area by up to 60%, allow it to condense and redirect moisture, providing a source of sustenance in environments where water sources are scarce. This ingenious adaptation has become the inspiration behind the Fog Smart Hydroponic Planter.

This planter represents a harmonious convergence of biomimicry and modern design principles. Unlike traditional planters, it transcends mere functionality, aspiring to become a statement piece that marries aesthetics with technological innovation. The modular design, a hallmark of this project, not only facilitates ease of use but also underscores the commitment to adaptability and sustainable plant care.

The use of advanced materials fortifies the structural integrity of the Fog Smart Hydroponic Planter. The air intake module is meticulously crafted from Plexiglas, a polymer renowned for its resistance to sunlight (also used in aquariums and airplane windows), preventing yellowing over time. The main body incorporates Lightweight Expanded Clay Aggregate (LECA), a versatile clay composite with superior water retention properties, strength, and porosity. The aluminum 6063 base complements this ensemble, providing a stable foundation resistant to corrosion.

To achieve simplicity and practicality, the planter is ingeniously disassembled into four primary components. The drip tray, perforated ring, metal ring, and polymer cap collectively ensure easy maintenance and cleaning. The LECA planter’s internal structure, designed to mimic the fog-basking beetle’s shell, employs hydrophilic and hydrophobic elements strategically, optimizing moisture retention and distribution.

The planter introduces a groundbreaking approach to airflow dynamics by incorporating the Coanda Effect. As humid air courses through the planter, moisture is absorbed, contributing to increased turbine efficiency. This design concept draws inspiration from well-established technologies, such as Dyson fans and jet turbines, showcasing a commitment to energy efficiency.

Elevating plant care to new heights, the planter integrates intelligent features denoted as Smart+. A temperature and humidity sensor, intricately linked with the electronic components, dynamically adjusts the turbine speed, allowing users precise control over the plant’s microenvironment. The accompanying app, a technological companion, provides real-time data on humidity and temperature levels, offering insightful recommendations for optimal watering cycles based on the geographic location of the planter.

User interaction with the Fog Smart Hydroponic Planter is facilitated through an intuitive and user-friendly app interface. The app acts as a conduit between the user and the planter’s internal environment, allowing the monitoring of moisture concentrations, receiving water cycle recommendations, and tracking humidity and temperature levels throughout the day. This digital integration transforms the planter from a mere vessel into a sophisticated and futuristic table accessory.

The Fog Smart Hydroponic Planter is not merely a horticultural innovation; it is a testament to the symbiosis of nature and technology in the pursuit of sustainable living. As we navigate the complexities of modern existence, this planter stands as a beacon of hope, offering a glimpse into a future where our interaction with nature is characterized by thoughtful design, cutting-edge technology, and a commitment to environmental harmony. With each leaf it nurtures, it heralds a greener, more sustainable tomorrow, where biomimicry and technological ingenuity converge to create a better world—one plant at a time.

Combining Nature And Technology For Sustainable Plant Care

In the realm of biomimicry, the Fog Smart Hydroponic Planter stands out as a futuristic marvel inspired by the incredible abilities of the fog-basking beetle. It is a masterpiece that seamlessly blends the brilliance of biomimicry, advanced materials, and smart technology. Inspired by the fog-basking beetle native to the Namibian deserts, this hydroponic planter is not merely a vessel for plants but a pioneering solution that promises a greener, more sustainable future.

Designer: Rishikesh Sonawane

Biomimicry is a practice that learns from and mimics the strategies found in nature to solve human design challenges. The fog-basking beetle, a tiny inhabitant of the Namibian deserts, can thrive in arid conditions by extracting moisture from the surrounding fog. Its microstructural adaptations, enhancing surface area by up to 60%, allow it to condense and redirect moisture, providing a source of sustenance in environments where water sources are scarce. This ingenious adaptation has become the inspiration behind the Fog Smart Hydroponic Planter.

This planter represents a harmonious convergence of biomimicry and modern design principles. Unlike traditional planters, it transcends mere functionality, aspiring to become a statement piece that marries aesthetics with technological innovation. The modular design, a hallmark of this project, not only facilitates ease of use but also underscores the commitment to adaptability and sustainable plant care.

The use of advanced materials fortifies the structural integrity of the Fog Smart Hydroponic Planter. The air intake module is meticulously crafted from Plexiglas, a polymer renowned for its resistance to sunlight (also used in aquariums and airplane windows), preventing yellowing over time. The main body incorporates Lightweight Expanded Clay Aggregate (LECA), a versatile clay composite with superior water retention properties, strength, and porosity. The aluminum 6063 base complements this ensemble, providing a stable foundation resistant to corrosion.

To achieve simplicity and practicality, the planter is ingeniously disassembled into four primary components. The drip tray, perforated ring, metal ring, and polymer cap collectively ensure easy maintenance and cleaning. The LECA planter’s internal structure, designed to mimic the fog-basking beetle’s shell, employs hydrophilic and hydrophobic elements strategically, optimizing moisture retention and distribution.

The planter introduces a groundbreaking approach to airflow dynamics by incorporating the Coanda Effect. As humid air courses through the planter, moisture is absorbed, contributing to increased turbine efficiency. This design concept draws inspiration from well-established technologies, such as Dyson fans and jet turbines, showcasing a commitment to energy efficiency.

Elevating plant care to new heights, the planter integrates intelligent features denoted as Smart+. A temperature and humidity sensor, intricately linked with the electronic components, dynamically adjusts the turbine speed, allowing users precise control over the plant’s microenvironment. The accompanying app, a technological companion, provides real-time data on humidity and temperature levels, offering insightful recommendations for optimal watering cycles based on the geographic location of the planter.

User interaction with the Fog Smart Hydroponic Planter is facilitated through an intuitive and user-friendly app interface. The app acts as a conduit between the user and the planter’s internal environment, allowing the monitoring of moisture concentrations, receiving water cycle recommendations, and tracking humidity and temperature levels throughout the day. This digital integration transforms the planter from a mere vessel into a sophisticated and futuristic table accessory.

The Fog Smart Hydroponic Planter is not merely a horticultural innovation; it is a testament to the symbiosis of nature and technology in the pursuit of sustainable living. As we navigate the complexities of modern existence, this planter stands as a beacon of hope, offering a glimpse into a future where our interaction with nature is characterized by thoughtful design, cutting-edge technology, and a commitment to environmental harmony. With each leaf it nurtures, it heralds a greener, more sustainable tomorrow, where biomimicry and technological ingenuity converge to create a better world—one plant at a time.

Modular electric minivan is inspired by puzzles for a more sustainable design

Although electric cars are becoming more common, we’ve barely scratched the surface of what they’re capable of. Removing the need for traditional fuel and relying on batteries opens up new possibilities, and not just in terms of power sources. It can offer a bit more flexibility when it comes to the form and function of the vehicle, like cars with completely digital interfaces or screens all around. There might even be room for a modular design, as this concept for a tiny Japanese electric van tries to show, allowing the manufacturer or even the owner to switch out certain parts both outside and inside to match their needs, just like pieces of a puzzle.

Designer: HW Electro

To be fair, a modular car might be a bit far down the road considering the industry is hyper-focused on standardizing electric vehicles and making self-driving features more acceptable to the masses. That’s not to say that the design is a distant possibility only, especially when the features are made to be more practical rather than fantastical. Switching out panels is probably more feasible than switching out whole car parts or components, which is the kind of modularity that the Puzzle concept embodies.

At first glance, the boxy shape of the Puzzle will already look strange to those not used to so-called “Kei cars,” but this kind of van design is popular in Japan for striking a balance between large interior capacity and small compact size. It’s a design that screams practical efficiency, and making it modular is taking it to the next level. But unlike what you might be imagining, the Puzzle’s pieces, pardon the pun, are limited to swapping out certain panels at the sides, corners, and even inside. It’s a bit of a generic system that opens up quite a number of possibilities but, more importantly, it also doesn’t tie them down to a specific design or part. It also makes replacing damaged panels easier and more economical, something that you can only dream of with regular cars.

The Puzzle van also has secrets to reveal inside its extremely spacious cabin. The interior door panel has slots that make it possible to add and remove different modules, such as containers, cup holders, and the like. Even the dashboard has this kind of design, yielding a clean yet flexible space for expanding the van’s capabilities, especially in the infotainment aspect. The cargo space, which is practically a cube, is also more space-efficient for storing boxes and all sorts of large objects, making the EV a potential delivery vehicle.

Thanks to the boxy form of this Kei car, it’s possible to put a solar panel on the roof to really maximize its battery mileage. Modular and sustainable, the Puzzle minivan concept offers an extremely simple yet effective solution to the future of electric vehicles, one that espouses the Japanese spirit of minimalism and practicality where form clearly follows function.

Modular electric minivan is inspired by puzzles for a more sustainable design

Although electric cars are becoming more common, we’ve barely scratched the surface of what they’re capable of. Removing the need for traditional fuel and relying on batteries opens up new possibilities, and not just in terms of power sources. It can offer a bit more flexibility when it comes to the form and function of the vehicle, like cars with completely digital interfaces or screens all around. There might even be room for a modular design, as this concept for a tiny Japanese electric van tries to show, allowing the manufacturer or even the owner to switch out certain parts both outside and inside to match their needs, just like pieces of a puzzle.

Designer: HW Electro

To be fair, a modular car might be a bit far down the road considering the industry is hyper-focused on standardizing electric vehicles and making self-driving features more acceptable to the masses. That’s not to say that the design is a distant possibility only, especially when the features are made to be more practical rather than fantastical. Switching out panels is probably more feasible than switching out whole car parts or components, which is the kind of modularity that the Puzzle concept embodies.

At first glance, the boxy shape of the Puzzle will already look strange to those not used to so-called “Kei cars,” but this kind of van design is popular in Japan for striking a balance between large interior capacity and small compact size. It’s a design that screams practical efficiency, and making it modular is taking it to the next level. But unlike what you might be imagining, the Puzzle’s pieces, pardon the pun, are limited to swapping out certain panels at the sides, corners, and even inside. It’s a bit of a generic system that opens up quite a number of possibilities but, more importantly, it also doesn’t tie them down to a specific design or part. It also makes replacing damaged panels easier and more economical, something that you can only dream of with regular cars.

The Puzzle van also has secrets to reveal inside its extremely spacious cabin. The interior door panel has slots that make it possible to add and remove different modules, such as containers, cup holders, and the like. Even the dashboard has this kind of design, yielding a clean yet flexible space for expanding the van’s capabilities, especially in the infotainment aspect. The cargo space, which is practically a cube, is also more space-efficient for storing boxes and all sorts of large objects, making the EV a potential delivery vehicle.

Thanks to the boxy form of this Kei car, it’s possible to put a solar panel on the roof to really maximize its battery mileage. Modular and sustainable, the Puzzle minivan concept offers an extremely simple yet effective solution to the future of electric vehicles, one that espouses the Japanese spirit of minimalism and practicality where form clearly follows function.

Champion sweatshirts and joggers are biodegradable and sustainable

Have you ever had one of those dreams, or rather, nightmares, when your clothes suddenly fall off your body like it was decomposing or something? That will probably not happen in real life, at least not instantly. But for those who are pursuing sustainable fashion, this is actually a good dream and not a nightmare. We’re seeing clothing brands experiment with biodegradable clothing and Champion is one such brand to do so.

Designer: Champion

The Reverse Weave Eco Future Collection is a line of biodegradable sweatshirt and joggers made from sustainable materials. You can wear it repeatedly until it naturally breaks down and decomposes over time. They use the CiCLO technology which helps bring about this natural decomposition process over time and help reduce the impact of plastic textile fibers and lessen microfiber pollution which is one of the major effects of the clothing industry on our carbon footprint.

The technology uses an additive that is combined with polyester and nylon during the fiber-making process. The process called melt extrusion turns them into liquid when heated and then they are turned into long threads. Other elements of the sweatshirts and joggers also use eco-friendly materials like the tags and labels ause pure cotton while the hangtags are printed with soybean ink. Even the colors used are from dyes extracted from pomegranate rinds, annatto, Terminalia Chebula fruit crusts, and kerria lacca insects.

In terms of the design, the sweatshirts and joggers in the Reverse Weave Eco Future Collection are just your usual. They do look comfortable since they’re oversized and unisex, so that’s another plus. The joggers have hip pockets and a drawcord waist for added comfort. But of course the main reason why you’d want any of these pieces is that they are biodegradable and friendly to Mother Earth. They’re available in different sizes and colors so there’s a variety to choose from.

This terracotta chimney gives you the warmth of a fireplace in a small, sustainable package

Most fireplaces in older apartments have been decommissioned because of how much of a health hazard they are. However, it’s no secret that fire is one of the most effective ways to generate heat, whether it’s for cooking food or for keeping you warm. While the chances of you having a working fireplace in your home are near zero, the folks at NextNova have designed the next best thing – a terracotta heater that uses a unique airflow pattern to create a tower of fire that heats your home while also optionally distributing a fragrance of your choice.

Designer: NextNova

The Tornado combines the charm of a fireplace with the safety of, say, a scented candle. The terracotta-based heater relies on airflow, along with the thermal properties of baked clay to generate radiating heat for both the indoors as well as the outdoors. On the inside, it burns bioethanol using ceramic wool as a substrate, generating heat without any smoke, ash, harmful chemicals, or bad odors. This means you can use the Tornado inside your home without worrying about triggering the fire alarm!

The Tornado comes from the same folks that designed the Egloo, which we dubbed “the world’s most affordable thermostat” back in 2017. Significantly larger than the Egloo, it stands at 17 inches tall, with an internal chamber that creates a large fire vortex that generates much more heat than you would get from the Egloo. In fact, the makers claim it outputs 7000 BTU (British Thermal Units) of heat, allowing it to do the job of a miniature campfire in your room, heating things up without burning any electricity!

The Tornado gets its name from the uniquely tall flame it creates. Strategically placed openings in the sides of the vertical chamber channel air in to amplify the fire, creating a wind vortex that lifts the flame up to 5x higher than usual. This not only increases the Tornado’s heat production, it also makes for a rather alluring display on the front, allowing you to admire the rising flame in all its glory.

Metal components help absorb excess heat, preventing the terracotta shell from cracking.

Once the flame is roaring, it heats the terracotta shell, which then emanates warmth to heat your home. The Tornado’s designed to be used both indoors as well as outdoors, mimicking the effect of a fireplace without the hazards of smoke or a potential disaster. The flame is contained within the Tornado’s secure and stable design. Just remember not to touch it, because it gets pretty hot!

Aside from heating, the Tornado can be used to diffuse aromas too. Just add a few drops of an essential oil of your choice to the ceramic wool, and the heat causes aromatic compounds to enter the air, working the way a scented candle does!

The strategic openings also serve an important purpose in allowing you to light or extinguish your Tornado. The lighting process first starts by lifting up the top hood to reveal the heat-resistant ceramic tray inside, with ceramic wool substrate. Pour your bio-ethanol in before placing the hood back. The openings on the side then let you place a long-neck lighter in to light the fire, or a flame snuffer to extinguish the fire instantaneously.

The Tornado currently finished crowdfunding on Kickstarter, raising an impressive $88,485 from nearly 500 backers. The backers will now get to choose what color they want their Tornado in, ranging from the classic beige and orange, to even colors like white, blue, red, and black!

Turn your bathroom into a sustainable piece of art with 3D printed tiles

If you’re redesigning your bathroom but you’re bored with the regularly-designed tiles that you see in the market, this 3D printed tile design may be for you. That is, if you don’t mind having some organism looking creatures permanently displayed while you’re taking a bath. It is sustainable and biodegradable so that’s a major bonus if you’re concerned with things like that.

Designer: bioMATTERS

The MYCO-ALGA is an interior tiling system that is made from natural and organic waste that have been upcycled together with actual living organisms. There are different sustainable processes involved in coming up with this including designing them digitally, 3D printing, growing the organisms, enriching them with bio-pigments, fabrication, etc. It begins with the waste materials being ground into a paste-like substrate as a foundation.

Once it has been turned into paste, it is then 3D printed into customized shapes and for two weeks, they are placed and cultivated in a controlled environment so that the mycelium turns into the thing that binds the material together. They are then placed in convection ovens and as they “bake”, they turn into lightweight materials but at the same time, they become strong and rigid. The bio-pigments from the harvested algae which are now gel are then applied to the tiles.

The tiles are definitely unique looking and can be a conversation piece when you have people visit your bathroom. They were designed to specifically look like organisms are crawling all over your space. The mosaic-like design with the non-repeating patterns are visually striking and 100% sustainable.

These earth-friendly sustainable cups add joy to every drink without harming the planet

Even with all the advice to drink plenty of water each day, few people actually pay attention to what they drink. Even fewer, unfortunately, pay attention to what they’re drinking from. Glassware is common in some homes and fine dining, but you’re more likely to see plastic vessels everywhere else. This synthetic material does have its advantages, especially when it comes to durability, but its harmful effects on the environment have already piled up. Fortunately, you can have your personal cup and drink from it, too, thanks to the fusion of innovative, earth-friendly materials and simple yet elegant design, giving birth to this sustainable tumbler that brings a profound experience to every sip.

Designer: PAPLUS

Click Here to Buy Now: $22.50 $25 (10% off at checkout).

There are many plant-derived synthetic resins available today, but the most popular among them is PLA or polylactic acid, a thermoplastic derived from the lactic acid of fermented corn starch and sugar cane juice, among other natural sources. PAPLUS is a new type of thermoplastic resin that mixes biodegradable paper to add the heat resistance, durability, and moldability that normal PLA lacks. And from this innovative material, this earth-friendly tumbler is born.

Unlike the artificial smoothness of plastic, the PAPLUS Tumbler’s use of this environment-friendly material creates a unique texture that can be compared to ceramic or wooden cups. Each sip brings not only a wonderful flavor to your tongue but also an engaging sensation to your lips, elevating the act of drinking to a new level of sensory experience. Thanks to the heat resistance of 120°C, you can enjoy that moment whether your favorite drink is piping-hot cocoa or ice-cold barley tea.

This plastic-free drinking device doesn’t just mimic the sensation of elegant cups, it even looks the part as well. Using black pigments dissolved in harmless urethane, the tumbler achieves a matte black coating on the outside that looks naturally glossy without using blasting methods. The inside retains the PAPLUS’ natural brownish color and texture to yield a distinctive two-tone design. Over time, the color does become uneven and fade from use, revealing the individuality of the owner through the unique wear patterns that set it apart from each and every tumbler.

This tumbler’s commitment to protecting the environment extends to its packaging, made from 100% recycled paper from old newspapers and magazines. And, when it finally reaches the end of its service, the biodegradable tumbler can be treated as burnable waste or, better yet, recycled for a different purpose. With this elegant earth-friendly tumbler, each drink becomes not only a toast to memories but also a toast to the planet’s longer life.

Click Here to Buy Now: $22.50 $25 (10% off at checkout).