Sustainability Article Collection
Sustainability-driven article development covering material innovation and advanced formulation research, along with process optimization, improved operational efficiency and productivity, responsible energy management, and integrated waste reduction across the manufacturing ecosystem.
Reina
.
REINA represents a new approach to green innovation in fashion synthetics, engineered to enhance coated canvas structures through environmentally responsible processing. The material maintains durability, flexibility, and surface integrity while reducing environmental impact through optimized production methods. By combining functional reliability with sustainable intent, REINA strengthens both performance standards and ecological responsibility.
Developed with an eco-friendly coating methodology, REINA minimizes resource consumption and chemical complexity within the manufacturing cycle. The controlled process enhances texture precision and surface consistency, ensuring stable adhesion and long-term structural performance. This green engineering approach supports measurable sustainability advancement while preserving the refined aesthetic of coated canvas materials.
REINA is designed for fashion accessories, lifestyle products, and coated canvas collections requiring both sustainability and premium texture expression. It enables brands to adopt greener material solutions without altering production compatibility or compromising quality standards. REINA transforms coated canvas into a responsible design platform aligned with modern environmental expectations.
Reina
#Balme
REINA #BALME advances the REINA platform through an innovative direct printing technique applied onto coated canvas structures. The material preserves durability, flexibility, and structural integrity while introducing elevated surface articulation. By integrating print precision directly into the coating layer, it enhances both aesthetic depth and tactile refinement without compromising performance stability.
Developed with advanced direct-to-surface printing technology, REINA #BALME enables the rendering of diverse textured aesthetics—from subtle grain effects to bold structured patterns. The controlled application process ensures consistent ink penetration, sharp definition, and long-term adhesion. This technique reduces additional layering steps while maximizing creative freedom within a streamlined production workflow.
REINA #BALME is designed for fashion and lifestyle collections seeking dynamic surface expression on coated canvas platforms. Ideal for handbags, accessories, and statement seasonal pieces, it allows brands to explore expanded texture narratives while maintaining industrial scalability. REINA #BALME transforms coated canvas into a refined and expressive design surface supported by technical reliability.
Reina #Petraea
REINA #PETRAEA evolves the REINA platform through a unique PU coating technique engineered to enhance both structural integrity and chromatic depth. The advanced polyurethane layer reinforces surface durability, flexibility, and adhesion stability while preserving the authentic textured identity of coated canvas. This refined coating approach enables elevated aesthetic articulation without compromising functional reliability.
Developed with a proprietary multi-layer PU application process, REINA #PETRAEA allows innovative multi-color printing directly over diverse textured canvas surfaces. Precision color control and calibrated layering techniques ensure sharp definition, seamless transitions, and consistent repeatability across production scales. The integration of PU coating and multi-tone rendering expands the expressive boundaries of coated canvas materials.
REINA #PETRAEA is designed for fashion collections requiring sophisticated surface narratives and premium color complexity. Ideal for handbags, accessories, and signature product lines, it enables brands to combine authentic canvas texture with advanced multi-color expression. REINA #PETRAEA transforms coated canvas into a high-impact design platform supported by technical excellence and scalable production performance.
Reina #Sovereign
REINA #SOVEREIGN represents a breakthrough evolution of the REINA platform through a revolutionary POE (Poly Olefin Elastomer) coating system. Engineered to enhance flexibility, durability, and surface resilience, the advanced formulation delivers superior mechanical balance while maintaining the authentic character of coated canvas. The integration of POE technology strengthens performance integrity while supporting a lower carbon material strategy.
Developed in collaboration with DOW, REINA #SOVEREIGN introduces a next-generation coating methodology that fully immerses multi-color print aesthetics deep into the textured surface of true coated canvas. Unlike surface-level applications, the POE-based system enables enhanced color penetration, refined adhesion, and long-term vibrancy across complex textures. This immersive engineering approach ensures dimensional chromatic depth while maintaining structural consistency at scale.
REINA #SOVEREIGN is designed for premium fashion and lifestyle collections seeking advanced coating performance combined with enhanced sustainability. By leveraging Poly Olefin Elastomer innovation to reduce carbon footprint intensity, it supports forward-looking environmental commitments without compromising aesthetic sophistication. Ideal for handbags, accessories, and elevated design lines, REINA #SOVEREIGN establishes a new benchmark where coating mastery, color complexity, and responsible material innovation converge.
ANNIE DOUCEUR introduces a new dimension of visual performance through its mystical multi-color wave printing technique. The engineered surface treatment enhances depth, movement, and chromatic transition across synthetic materials, creating dynamic light interaction and refined tactile appeal. Beyond aesthetics, the print structure maintains surface stability and durability suitable for modern fashion applications.
Developed through advanced layering and precision color diffusion processes, ANNIE DOUCEUR achieves complex multi-tone gradients and flowing wave patterns within a controlled production environment. The technique allows seamless color transitions, enhanced vibrancy, and repeatable pattern consistency at scale. This innovation expands the creative boundaries of fashion synthetics while preserving structural integrity and manufacturing efficiency.
ANNIE DOUCEUR is designed for fashion-forward collections and design-driven product lines seeking distinctive surface identity. Ideal for handbags, accessories, footwear components, and statement pieces, it empowers brands to explore new chromatic narratives and elevate visual storytelling. The material transforms synthetic surfaces into expressive design elements while remaining compatible with industrial production standards.
Annie Douceur
SL Grosso
SL GROSSO opens a revolutionary new chapter in fashion leather sustainability through truly traceable circular material development. Engineered to combine durability, flexibility, and refined surface integrity, the material is developed within a transparent circular framework that ensures accountability from recovered input to finished product. This approach reinforces structural performance while delivering measurable environmental responsibility at every stage of the lifecycle.
Rendered through advanced print art techniques, SL GROSSO elevates surface expression while preserving the integrity of its circular foundation. In collaboration with Gen Phoenix, the material integrates traceable recycled content into a premium leather-like structure enhanced by precision print layering and surface refinement. The result is a sophisticated balance between regenerative material innovation and high-end aesthetic craftsmanship.
SL GROSSO is designed for global fashion houses and premium brands seeking luxury materials with verified circularity and transparency. Ideal for handbags, accessories, footwear components, and statement design pieces, it enables high-value product creation within a responsible and traceable supply ecosystem. SL GROSSO redefines sustainable fashion materials by uniting circular engineering, artistic print excellence, and elevated brand positioning.
PETALO is developed through the integration of fabric and existing textile materials into a double-substrate structure that enhances both aesthetic depth and structural stability. By combining layered construction with three-dimensional surface expression, PETALO delivers improved dimensional strength, tactile richness, and visual texture. This integrated system allows the material to achieve elevated design value while maintaining reliable mechanical performance.
Built on the philosophy that materials already in circulation have already carried their environmental cost, PETALO collaborates with existing fabrics and textile resources to create a renewed structural composition. Through controlled lamination and bonding techniques, textile components are transformed into a reinforced dual-layer substrate with enhanced durability and design flexibility. This approach maximizes resource efficiency while minimizing additional environmental burden within the production cycle.
PETALO is designed for brands seeking expressive material solutions with responsible sourcing principles. Ideal for fashion accessories, lifestyle products, and design-driven applications, it enables the incorporation of existing textile elements into scalable production systems. PETALO supports a regenerative product philosophy, where aesthetic innovation and environmental mindfulness coexist within a circular-oriented material strategy.
Petalo
PAPERO is an innovative material platform developed by upcycling used paper and cork into a reinforced substrate system for coated canvas applications. By integrating natural fiber-based content with engineered surface treatments, PAPERO enhances structural stability, tensile strength, and dimensional consistency while introducing meaningful bio-based content. The result is a material that combines improved physical performance with measurable environmental value.
Through a controlled upcycling and reprocessing methodology, reclaimed paper fibers and cork particles are transformed into a durable and supportive base substrate. This engineered composition strengthens backing integrity and optimizes bonding performance with coated surfaces. The approach reduces material waste, extends resource life cycles, and enables a circular pathway for natural-origin materials within advanced coated canvas structures.
PAPERO is designed for brands seeking sustainable alternatives in fashion accessories, lifestyle goods, and functional canvas-based products. Its bio-content and upcycled substrate system support responsible product development while maintaining manufacturing compatibility and performance standards. PAPERO enables greener design strategies without compromising durability, aesthetics, or scalability.
Papero
Babylon
BABYLON is a renewable resource–based fashion synthetic developed with integrated bio-content to reduce reliance on fossil-derived inputs. Engineered to maintain durability, flexibility, and surface consistency, the material balances environmental responsibility with reliable mechanical performance. By incorporating certified renewable feedstocks, BABYLON supports reduced carbon intensity while preserving the functional standards required in modern fashion applications.
Developed through continuous research toward greener material solutions, BABYLON integrates bio-based components sourced through strategic collaborations with industry leaders such as Neste and Susterra®. This renewable approach enhances material formulation while maintaining processing stability and performance consistency. The innovation reflects a transition toward next-generation synthetics, where plant-based and renewable inputs play a central role in advanced polymer development.
BABYLON is designed for global brands seeking scalable renewable material solutions aligned with ESG commitments and carbon reduction strategies. Suitable for fashion accessories, lifestyle goods, and performance-oriented synthetic applications, it enables the integration of bio-content materials into existing production systems without compromising quality or manufacturability. BABYLON represents a forward-looking platform for brands advancing toward a lower-impact material future.
Lerida
LERIDA introduces a new synthetic fashion platform designed to deliver the authentic visual and tactile experience of fully natural aesthetics. Engineered to balance softness, texture realism, and structural stability, the material reinterprets coated canvas through a refined organic expression. It bridges the gap between synthetic performance and nature-inspired design language.
Developed with a forward-looking sustainability strategy, LERIDA supports measurable carbon dioxide reduction targets through optimized formulation and responsible production integration. This innovation approach provides the “extra push” the conventional coated canvas market requires to transition toward lower-impact alternatives. By recalibrating material composition and processing efficiency, LERIDA advances synthetic fashion into a more climate-conscious direction.
LERIDA is positioned to open a new era beyond traditional PVC coated canvas systems. Designed for fashion accessories, lifestyle products, and evolving premium collections, it enables brands to maintain performance reliability while embracing a more sustainable and natural aesthetic narrative. LERIDA represents a transformative step forward—where innovation, environmental accountability, and market evolution converge.
Magots
MAGOTS is a shape-memory material platform engineered to enhance structural adaptability and design freedom. The material responds to manipulation while retaining its intended form, allowing controlled reshaping without permanent deformation. This adaptive behavior supports long-term durability while expanding the creative flexibility demanded by modern fashion aesthetics.
Developed through advanced polymer formulation and structural calibration, MAGOTS integrates shape-memory functionality into a stable synthetic system. The engineered composition enables the material to recover form after bending, folding, or compression, while maintaining surface consistency and mechanical integrity. This intelligent material structure transforms static components into responsive design elements.
MAGOTS is designed for fashion-forward collections and experimental product lines where structure and movement are central to design identity. Ideal for handbags, accessories, footwear components, and architectural fashion elements, it empowers designers to explore sculptural silhouettes and adaptable forms. MAGOTS redefines flexibility by combining functional responsiveness with aesthetic innovation.
TANGLO delivers exceptional mechanical performance through a balanced combination of durability, elasticity, and structural integrity. Its advanced TPU composition provides outstanding abrasion resistance, hydrolysis stability, and long-term resilience under demanding conditions. Designed to maintain both flexibility and dimensional stability, TANGLO ensures reliable performance across dynamic and high-precision applications.
Developed through precision compounding and controlled manufacturing processes, TANGLO reflects Solto’s expertise in material engineering and surface optimization. The material structure can be tailored in hardness, thickness, and tactile characteristics to meet specific technical requirements, while ensuring consistent quality and refined surface performance across large-scale production.
With its versatile performance profile, TANGLO supports a wide range of modern product developments, from fashion accessories and footwear components to automotive interiors and technical industrial uses. Its adaptability in forming and finishing processes enables designers and manufacturers to achieve both aesthetic refinement and functional reliability.
Tanglo
BELLO is a water-based polyurethane material engineered to deliver reliable mechanical performance with significantly reduced environmental impact. By replacing conventional solvent-based systems with an optimized water-based formulation, BELLO maintains durability, flexibility, and surface integrity while lowering VOC emissions and process-related environmental burden. It provides a balanced solution where sustainability and functional performance coexist without compromise.
Developed through a simplified and advanced coating process, BELLO minimizes chemical complexity and improves production efficiency. The clean coating system reduces solvent dependency while ensuring consistent layer uniformity, controlled thickness, and stable material structure. This technology enhances manufacturing safety and environmental compliance while preserving the refined surface aesthetics expected from high-quality polyurethane materials.
BELLO supports product developments that prioritize both performance and environmental responsibility. It is suitable for fashion accessories, upholstery, and lifestyle applications where reduced environmental impact is a strategic requirement. By enabling brands to integrate water-based material solutions into scalable production, BELLO contributes to responsible manufacturing practices aligned with modern sustainability commitments.
Bello
REVNO delivers engineered circular performance by transforming pre- and post-consumer polyvinyl chloride into a renewed thermoplastic system designed for durability and functional stability. By integrating recycled PVC with rPET and cRPET base substrates, REVNO maintains structural integrity, flexibility, and refined surface quality while significantly reducing virgin material dependency. The result is a material platform that balances technical reliability with measurable circular value.
REVNO is developed through a controlled recycling and reformulation process that converts recovered PVC into high-quality thermoplastic compounds. The material is further enhanced with recycled textile-based substrates, strengthening both mechanical performance and sustainability credentials. Through collaboration within a traceable supply chain network, including partnerships with R-collective, REVNO ensures transparency from collection and material recovery to engineered production, supporting accountable and verifiable sourcing.
Designed for brands committed to circular transformation, REVNO enables seamless integration of recycled materials into fashion, lifestyle, and industrial product lines. Its adaptable structure supports scalable manufacturing while aligning with global environmental strategies, ESG commitments, and responsible production standards. REVNO functions not only as a material solution, but as a strategic component in advancing sustainable industry ecosystems.
Revno
MEDURA represents a new sustainability approach by integrating plant-based olefin with conventional petrochemical components to create a balanced, high-performance material system. This hybrid formulation reduces reliance on fossil-based resources while enhancing mechanical strength, flexibility, and chemical stability. By combining renewable input with engineered compound precision, MEDURA delivers improved physical and chemical performance without sacrificing durability or processing reliability.
Developed through advanced compounding technology, MEDURA optimizes the interaction between renewable olefin sources and petrochemical content to achieve structural consistency and long-term stability. The controlled formulation enhances tensile performance, surface integrity, and resistance to environmental stress, ensuring compatibility with modern manufacturing standards. This engineered hybrid approach enables scalable production while supporting measurable sustainability advancement.
MEDURA is designed for forward-thinking brands seeking to transition toward renewable material solutions without compromising product performance. Suitable for fashion, lifestyle, and industrial applications, it supports the integration of partially bio-based content into high-volume production systems. MEDURA serves as a strategic material platform for companies advancing toward reduced carbon intensity and more sustainable product ecosystems.
Medura
PAPERO is an innovative material platform developed by upcycling used paper and cork into a reinforced substrate system for coated canvas applications. By integrating natural fiber-based content with engineered surface treatments, PAPERO enhances structural stability, tensile strength, and dimensional consistency while introducing meaningful bio-based content. The result is a material that combines improved physical performance with measurable environmental value.
Through a controlled upcycling and reprocessing methodology, reclaimed paper fibers and cork particles are transformed into a durable and supportive base substrate. This engineered composition strengthens backing integrity and optimizes bonding performance with coated surfaces. The approach reduces material waste, extends resource life cycles, and enables a circular pathway for natural-origin materials within advanced coated canvas structures.
PAPERO is designed for brands seeking sustainable alternatives in fashion accessories, lifestyle goods, and functional canvas-based products. Its bio-content and upcycled substrate system support responsible product development while maintaining manufacturing compatibility and performance standards. PAPERO enables greener design strategies without compromising durability, aesthetics, or scalability.
Papero
PETALO is developed through the integration of fabric and existing textile materials into a double-substrate structure that enhances both aesthetic depth and structural stability. By combining layered construction with three-dimensional surface expression, PETALO delivers improved dimensional strength, tactile richness, and visual texture. This integrated system allows the material to achieve elevated design value while maintaining reliable mechanical performance.
Built on the philosophy that materials already in circulation have already carried their environmental cost, PETALO collaborates with existing fabrics and textile resources to create a renewed structural composition. Through controlled lamination and bonding techniques, textile components are transformed into a reinforced dual-layer substrate with enhanced durability and design flexibility. This approach maximizes resource efficiency while minimizing additional environmental burden within the production cycle.
PETALO is designed for brands seeking expressive material solutions with responsible sourcing principles. Ideal for fashion accessories, lifestyle products, and design-driven applications, it enables the incorporation of existing textile elements into scalable production systems. PETALO supports a regenerative product philosophy, where aesthetic innovation and environmental mindfulness coexist within a circular-oriented material strategy.
Petalo
ANNIE DOUCEUR introduces a new dimension of visual performance through its mystical multi-color wave printing technique. The engineered surface treatment enhances depth, movement, and chromatic transition across synthetic materials, creating dynamic light interaction and refined tactile appeal. Beyond aesthetics, the print structure maintains surface stability and durability suitable for modern fashion applications.
Developed through advanced layering and precision color diffusion processes, ANNIE DOUCEUR achieves complex multi-tone gradients and flowing wave patterns within a controlled production environment. The technique allows seamless color transitions, enhanced vibrancy, and repeatable pattern consistency at scale. This innovation expands the creative boundaries of fashion synthetics while preserving structural integrity and manufacturing efficiency.
ANNIE DOUCEUR is designed for fashion-forward collections and design-driven product lines seeking distinctive surface identity. Ideal for handbags, accessories, footwear components, and statement pieces, it empowers brands to explore new chromatic narratives and elevate visual storytelling. The material transforms synthetic surfaces into expressive design elements while remaining compatible with industrial production standards.
Annie Douceur
BABYLON is a renewable resource–based fashion synthetic developed with integrated bio-content to reduce reliance on fossil-derived inputs. Engineered to maintain durability, flexibility, and surface consistency, the material balances environmental responsibility with reliable mechanical performance. By incorporating certified renewable feedstocks, BABYLON supports reduced carbon intensity while preserving the functional standards required in modern fashion applications.
Developed through continuous research toward greener material solutions, BABYLON integrates bio-based components sourced through strategic collaborations with industry leaders such as Neste and Susterra®. This renewable approach enhances material formulation while maintaining processing stability and performance consistency. The innovation reflects a transition toward next-generation synthetics, where plant-based and renewable inputs play a central role in advanced polymer development.
BABYLON is designed for global brands seeking scalable renewable material solutions aligned with ESG commitments and carbon reduction strategies. Suitable for fashion accessories, lifestyle goods, and performance-oriented synthetic applications, it enables the integration of bio-content materials into existing production systems without compromising quality or manufacturability. BABYLON represents a forward-looking platform for brands advancing toward a lower-impact material future.
Babylon
SL GROSSO opens a revolutionary new chapter in fashion leather sustainability through truly traceable circular material development. Engineered to combine durability, flexibility, and refined surface integrity, the material is developed within a transparent circular framework that ensures accountability from recovered input to finished product. This approach reinforces structural performance while delivering measurable environmental responsibility at every stage of the lifecycle.
Rendered through advanced print art techniques, SL GROSSO elevates surface expression while preserving the integrity of its circular foundation. In collaboration with Gen Phoenix, the material integrates traceable recycled content into a premium leather-like structure enhanced by precision print layering and surface refinement. The result is a sophisticated balance between regenerative material innovation and high-end aesthetic craftsmanship.
SL GROSSO is designed for global fashion houses and premium brands seeking luxury materials with verified circularity and transparency. Ideal for handbags, accessories, footwear components, and statement design pieces, it enables high-value product creation within a responsible and traceable supply ecosystem. SL GROSSO redefines sustainable fashion materials by uniting circular engineering, artistic print excellence, and elevated brand positioning.
SL Grosso
BAMBI is a reversible material platform engineered with both sides printed and embossed to deliver two distinct aesthetic expressions within a single structure. This dual-sided construction enhances design flexibility while maintaining durability, structural balance, and surface consistency. By integrating versatility directly into the material, BAMBI expands creative potential without increasing material volume or product complexity.
Developed through precision printing and embossing technologies applied to both surfaces, BAMBI achieves synchronized texture definition and visual depth on each side. The controlled dual-process system ensures stable adhesion, dimensional integrity, and long-term performance. By consolidating multiple design options into one material layer, BAMBI reduces additional processing steps, contributing to energy efficiency and manufacturing optimization.
BAMBI is designed for brands seeking adaptable material solutions that support multi-look collections and cost-effective production strategies. Ideal for handbags, accessories, and lifestyle products, it enables reversible wear concepts while lowering production energy consumption and material waste. BAMBI represents a smart material innovation where versatility, efficiency, and responsible manufacturing converge.
Bambi
VELATO is a reversible material platform engineered with both sides printed and embossed to deliver two distinct aesthetic expressions within a single structure. This dual-sided construction enhances design flexibility while maintaining durability, structural balance, and surface consistency. By integrating versatility directly into the material, VELATO expands creative potential without increasing material volume or product complexity.
Developed through precision printing and embossing technologies applied to both surfaces, VELATO achieves synchronized texture definition and visual depth on each side. The controlled dual-process system ensures stable adhesion, dimensional integrity, and long-term performance. By consolidating multiple design options into one material layer, VELATO reduces additional processing steps, contributing to energy efficiency and manufacturing optimization.
VELATO is designed for brands seeking adaptable material solutions that support multi-look collections and cost-effective production strategies. Ideal for handbags, accessories, and lifestyle products, it enables reversible wear concepts while lowering production energy consumption and material waste. VELATO represents a smart material innovation where versatility, efficiency, and responsible manufacturing converge.
Velato
MAGOTS is a shape-memory material platform engineered to enhance structural adaptability and design freedom. The material responds to manipulation while retaining its intended form, allowing controlled reshaping without permanent deformation. This adaptive behavior supports long-term durability while expanding the creative flexibility demanded by modern fashion aesthetics.
Developed through advanced polymer formulation and structural calibration, MAGOTS integrates shape-memory functionality into a stable synthetic system. The engineered composition enables the material to recover form after bending, folding, or compression, while maintaining surface consistency and mechanical integrity. This intelligent material structure transforms static components into responsive design elements.
MAGOTS is designed for fashion-forward collections and experimental product lines where structure and movement are central to design identity. Ideal for handbags, accessories, footwear components, and architectural fashion elements, it empowers designers to explore sculptural silhouettes and adaptable forms. MAGOTS redefines flexibility by combining functional responsiveness with aesthetic innovation.
Magots
AUGIE is a transparent fashion coating collection engineered to combine clarity, durability, and refined surface balance. Designed to maintain structural stability while preserving optical transparency, the material enables lightweight construction with modern visual appeal. Its controlled formulation ensures flexibility and resistance performance without compromising the clean, glass-like aesthetic.
Enhanced with advanced print techniques, AUGIE transforms transparent surfaces into expressive design platforms. Precision layering and controlled ink diffusion allow vibrant patterns, subtle gradients, or bold graphic statements to coexist with translucency. This integration of print technology and clear coating expands creative possibilities while maintaining surface consistency and production reliability.
AUGIE is designed for fashion collections seeking lightness, layering effects, and statement transparency. Ideal for handbags, accessories, footwear components, and design-driven seasonal pieces, it supports multi-dimensional styling and experimental aesthetics. AUGIE enables brands to explore modern transparency trends while maintaining scalable manufacturing standards.
Augie
REINA represents a new approach to green innovation in fashion synthetics, engineered to enhance coated canvas structures through environmentally responsible processing. The material maintains durability, flexibility, and surface integrity while reducing environmental impact through optimized production methods. By combining functional reliability with sustainable intent, REINA strengthens both performance standards and ecological responsibility.
Developed with an eco-friendly coating methodology, REINA minimizes resource consumption and chemical complexity within the manufacturing cycle. The controlled process enhances texture precision and surface consistency, ensuring stable adhesion and long-term structural performance. This green engineering approach supports measurable sustainability advancement while preserving the refined aesthetic of coated canvas materials.
REINA is designed for fashion accessories, lifestyle products, and coated canvas collections requiring both sustainability and premium texture expression. It enables brands to adopt greener material solutions without altering production compatibility or compromising quality standards. REINA transforms coated canvas into a responsible design platform aligned with modern environmental expectations.
Reina
REINA #BALME advances the REINA platform through an innovative direct printing technique applied onto coated canvas structures. The material preserves durability, flexibility, and structural integrity while introducing elevated surface articulation. By integrating print precision directly into the coating layer, it enhances both aesthetic depth and tactile refinement without compromising performance stability.
Developed with advanced direct-to-surface printing technology, REINA #BALME enables the rendering of diverse textured aesthetics—from subtle grain effects to bold structured patterns. The controlled application process ensures consistent ink penetration, sharp definition, and long-term adhesion. This technique reduces additional layering steps while maximizing creative freedom within a streamlined production workflow.
REINA #BALME is designed for fashion and lifestyle collections seeking dynamic surface expression on coated canvas platforms. Ideal for handbags, accessories, and statement seasonal pieces, it allows brands to explore expanded texture narratives while maintaining industrial scalability. REINA #BALME transforms coated canvas into a refined and expressive design surface supported by technical reliability.
Reina
#Balme
REINA #PETRAEA evolves the REINA platform through a unique PU coating technique engineered to enhance both structural integrity and chromatic depth. The advanced polyurethane layer reinforces surface durability, flexibility, and adhesion stability while preserving the authentic textured identity of coated canvas. This refined coating approach enables elevated aesthetic articulation without compromising functional reliability.
Developed with a proprietary multi-layer PU application process, REINA #PETRAEA allows innovative multi-color printing directly over diverse textured canvas surfaces. Precision color control and calibrated layering techniques ensure sharp definition, seamless transitions, and consistent repeatability across production scales. The integration of PU coating and multi-tone rendering expands the expressive boundaries of coated canvas materials.
REINA #PETRAEA is designed for fashion collections requiring sophisticated surface narratives and premium color complexity. Ideal for handbags, accessories, and signature product lines, it enables brands to combine authentic canvas texture with advanced multi-color expression. REINA #PETRAEA transforms coated canvas into a high-impact design platform supported by technical excellence and scalable production performance.
Reina #Petraea
REINA #SOVEREIGN represents a breakthrough evolution of the REINA platform through a revolutionary POE (Poly Olefin Elastomer) coating system. Engineered to enhance flexibility, durability, and surface resilience, the advanced formulation delivers superior mechanical balance while maintaining the authentic character of coated canvas. The integration of POE technology strengthens performance integrity while supporting a lower carbon material strategy.
Developed in collaboration with DOW, REINA #SOVEREIGN introduces a next-generation coating methodology that fully immerses multi-color print aesthetics deep into the textured surface of true coated canvas. Unlike surface-level applications, the POE-based system enables enhanced color penetration, refined adhesion, and long-term vibrancy across complex textures. This immersive engineering approach ensures dimensional chromatic depth while maintaining structural consistency at scale.
REINA #SOVEREIGN is designed for premium fashion and lifestyle collections seeking advanced coating performance combined with enhanced sustainability. By leveraging Poly Olefin Elastomer innovation to reduce carbon footprint intensity, it supports forward-looking environmental commitments without compromising aesthetic sophistication. Ideal for handbags, accessories, and elevated design lines, REINA #SOVEREIGN establishes a new benchmark where coating mastery, color complexity, and responsible material innovation converge.
Reina #Sovereign
LERIDA introduces a new synthetic fashion platform designed to deliver the authentic visual and tactile experience of fully natural aesthetics. Engineered to balance softness, texture realism, and structural stability, the material reinterprets coated canvas through a refined organic expression. It bridges the gap between synthetic performance and nature-inspired design language.
Developed with a forward-looking sustainability strategy, LERIDA supports measurable carbon dioxide reduction targets through optimized formulation and responsible production integration. This innovation approach provides the “extra push” the conventional coated canvas market requires to transition toward lower-impact alternatives. By recalibrating material composition and processing efficiency, LERIDA advances synthetic fashion into a more climate-conscious direction.
LERIDA is positioned to open a new era beyond traditional PVC coated canvas systems. Designed for fashion accessories, lifestyle products, and evolving premium collections, it enables brands to maintain performance reliability while embracing a more sustainable and natural aesthetic narrative. LERIDA represents a transformative step forward—where innovation, environmental accountability, and market evolution converge.
Lerida
ICE DENIM is a regenerative cotton-based denim collection engineered to merge textile authenticity with advanced coated innovation. By incorporating responsibly sourced cotton foundations, the material supports regenerative material direction while preserving the familiar strength, flexibility, and character of classic denim structures. The fusion of textile heritage and technical enhancement creates a balanced performance platform for modern fashion.
Developed through integrated washing treatments and precision print techniques, ICE DENIM enhances depth, contrast, and surface storytelling before being sealed with a refined glassy top coating. This transparent protective layer amplifies visual dimension, enriches color retention, and reinforces durability without concealing the underlying denim identity. The result is a controlled synergy between raw textile expression and high-performance surface finishing.
ICE DENIM is designed for fashion and lifestyle collections seeking elevated denim aesthetics with structural enhancement. Ideal for handbags, accessories, footwear components, and hybrid fashion products, it enables brands to reinterpret denim through a coated, contemporary lens. ICE DENIM bridges regenerative textile values with industrial scalability and modern surface sophistication.
Ice Denim
CHRISTEN introduces a next-generation coated canvas platform developed through advanced polymer integration. By incorporating Poly Olefin Elastomer technology, the material enhances flexibility, resilience, and long-term structural stability. The optimized formulation delivers balanced mechanical performance while maintaining refined surface consistency suitable for modern fashion applications.
Developed in collaboration with DOW, CHRISTEN integrates innovative Poly Olefin Elastomer solutions to support a more sustainable coated canvas system. The POE-based structure enables improved material efficiency and reduced environmental intensity compared to conventional alternatives. This engineered approach advances sustainability objectives while ensuring scalable and stable industrial production.
CHRISTEN is designed for fashion and lifestyle brands seeking forward-looking coated canvas materials aligned with evolving environmental standards. Ideal for handbags, accessories, and performance-oriented product lines, it enables the transition toward more responsible polymer systems without compromising durability or aesthetic precision. CHRISTEN represents a progressive step toward the future of sustainable synthetic materials.
Christen
Ice Denim
ICE DENIM is a regenerative cotton-based denim collection engineered to merge textile authenticity with advanced coated innovation. By incorporating responsibly sourced cotton foundations, the material supports regenerative material direction while preserving the familiar strength, flexibility, and character of classic denim structures. The fusion of textile heritage and technical enhancement creates a balanced performance platform for modern fashion.
Developed through integrated washing treatments and precision print techniques, ICE DENIM enhances depth, contrast, and surface storytelling before being sealed with a refined glassy top coating. This transparent protective layer amplifies visual dimension, enriches color retention, and reinforces durability without concealing the underlying denim identity. The result is a controlled synergy between raw textile expression and high-performance surface finishing.
ICE DENIM is designed for fashion and lifestyle collections seeking elevated denim aesthetics with structural enhancement. Ideal for handbags, accessories, footwear components, and hybrid fashion products, it enables brands to reinterpret denim through a coated, contemporary lens. ICE DENIM bridges regenerative textile values with industrial scalability and modern surface sophistication.
Augie
AUGIE is a transparent fashion coating collection engineered to combine clarity, durability, and refined surface balance. Designed to maintain structural stability while preserving optical transparency, the material enables lightweight construction with modern visual appeal. Its controlled formulation ensures flexibility and resistance performance without compromising the clean, glass-like aesthetic.
Enhanced with advanced print techniques, AUGIE transforms transparent surfaces into expressive design platforms. Precision layering and controlled ink diffusion allow vibrant patterns, subtle gradients, or bold graphic statements to coexist with translucency. This integration of print technology and clear coating expands creative possibilities while maintaining surface consistency and production reliability.
AUGIE is designed for fashion collections seeking lightness, layering effects, and statement transparency. Ideal for handbags, accessories, footwear components, and design-driven seasonal pieces, it supports multi-dimensional styling and experimental aesthetics. AUGIE enables brands to explore modern transparency trends while maintaining scalable manufacturing standards.
Bello
BELLO is a water-based polyurethane material engineered to deliver reliable mechanical performance with significantly reduced environmental impact. By replacing conventional solvent-based systems with an optimized water-based formulation, BELLO maintains durability, flexibility, and surface integrity while lowering VOC emissions and process-related environmental burden. It provides a balanced solution where sustainability and functional performance coexist without compromise.
Developed through a simplified and advanced coating process, BELLO minimizes chemical complexity and improves production efficiency. The clean coating system reduces solvent dependency while ensuring consistent layer uniformity, controlled thickness, and stable material structure. This technology enhances manufacturing safety and environmental compliance while preserving the refined surface aesthetics expected from high-quality polyurethane materials.
BELLO supports product developments that prioritize both performance and environmental responsibility. It is suitable for fashion accessories, upholstery, and lifestyle applications where reduced environmental impact is a strategic requirement. By enabling brands to integrate water-based material solutions into scalable production, BELLO contributes to responsible manufacturing practices aligned with modern sustainability commitments.
Revno
REVNO delivers engineered circular performance by transforming pre- and post-consumer polyvinyl chloride into a renewed thermoplastic system designed for durability and functional stability. By integrating recycled PVC with rPET and cRPET base substrates, REVNO maintains structural integrity, flexibility, and refined surface quality while significantly reducing virgin material dependency. The result is a material platform that balances technical reliability with measurable circular value.
REVNO is developed through a controlled recycling and reformulation process that converts recovered PVC into high-quality thermoplastic compounds. The material is further enhanced with recycled textile-based substrates, strengthening both mechanical performance and sustainability credentials. Through collaboration within a traceable supply chain network, including partnerships with R-collective, REVNO ensures transparency from collection and material recovery to engineered production, supporting accountable and verifiable sourcing.
Designed for brands committed to circular transformation, REVNO enables seamless integration of recycled materials into fashion, lifestyle, and industrial product lines. Its adaptable structure supports scalable manufacturing while aligning with global environmental strategies, ESG commitments, and responsible production standards. REVNO functions not only as a material solution, but as a strategic component in advancing sustainable industry ecosystems.
Medura
MEDURA represents a new sustainability approach by integrating plant-based olefin with conventional petrochemical components to create a balanced, high-performance material system. This hybrid formulation reduces reliance on fossil-based resources while enhancing mechanical strength, flexibility, and chemical stability. By combining renewable input with engineered compound precision, MEDURA delivers improved physical and chemical performance without sacrificing durability or processing reliability.
Developed through advanced compounding technology, MEDURA optimizes the interaction between renewable olefin sources and petrochemical content to achieve structural consistency and long-term stability. The controlled formulation enhances tensile performance, surface integrity, and resistance to environmental stress, ensuring compatibility with modern manufacturing standards. This engineered hybrid approach enables scalable production while supporting measurable sustainability advancement.
MEDURA is designed for forward-thinking brands seeking to transition toward renewable material solutions without compromising product performance. Suitable for fashion, lifestyle, and industrial applications, it supports the integration of partially bio-based content into high-volume production systems. MEDURA serves as a strategic material platform for companies advancing toward reduced carbon intensity and more sustainable product ecosystems.
Bambi
BAMBI is a reversible material platform engineered with both sides printed and embossed to deliver two distinct aesthetic expressions within a single structure. This dual-sided construction enhances design flexibility while maintaining durability, structural balance, and surface consistency. By integrating versatility directly into the material, BAMBI expands creative potential without increasing material volume or product complexity.
Developed through precision printing and embossing technologies applied to both surfaces, BAMBI achieves synchronized texture definition and visual depth on each side. The controlled dual-process system ensures stable adhesion, dimensional integrity, and long-term performance. By consolidating multiple design options into one material layer, BAMBI reduces additional processing steps, contributing to energy efficiency and manufacturing optimization.
BAMBI is designed for brands seeking adaptable material solutions that support multi-look collections and cost-effective production strategies. Ideal for handbags, accessories, and lifestyle products, it enables reversible wear concepts while lowering production energy consumption and material waste. BAMBI represents a smart material innovation where versatility, efficiency, and responsible manufacturing converge.
Velato
VELATO is a reversible material platform engineered with both sides printed and embossed to deliver two distinct aesthetic expressions within a single structure. This dual-sided construction enhances design flexibility while maintaining durability, structural balance, and surface consistency. By integrating versatility directly into the material, VELATO expands creative potential without increasing material volume or product complexity.
Developed through precision printing and embossing technologies applied to both surfaces, VELATO achieves synchronized texture definition and visual depth on each side. The controlled dual-process system ensures stable adhesion, dimensional integrity, and long-term performance. By consolidating multiple design options into one material layer, VELATO reduces additional processing steps, contributing to energy efficiency and manufacturing optimization.
VELATO is designed for brands seeking adaptable material solutions that support multi-look collections and cost-effective production strategies. Ideal for handbags, accessories, and lifestyle products, it enables reversible wear concepts while lowering production energy consumption and material waste. VELATO represents a smart material innovation where versatility, efficiency, and responsible manufacturing converge.
Christen
CHRISTEN introduces a next-generation coated canvas platform developed through advanced polymer integration. By incorporating Poly Olefin Elastomer technology, the material enhances flexibility, resilience, and long-term structural stability. The optimized formulation delivers balanced mechanical performance while maintaining refined surface consistency suitable for modern fashion applications.
Developed in collaboration with DOW, CHRISTEN integrates innovative Poly Olefin Elastomer solutions to support a more sustainable coated canvas system. The POE-based structure enables improved material efficiency and reduced environmental intensity compared to conventional alternatives. This engineered approach advances sustainability objectives while ensuring scalable and stable industrial production.
CHRISTEN is designed for fashion and lifestyle brands seeking forward-looking coated canvas materials aligned with evolving environmental standards. Ideal for handbags, accessories, and performance-oriented product lines, it enables the transition toward more responsible polymer systems without compromising durability or aesthetic precision. CHRISTEN represents a progressive step toward the future of sustainable synthetic materials.
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Solto.biz
Connect with Solto
4/5 Floor, KIMA BLDG, 14, Teheran-ro 81-gil, Gangnam-gu, Seoul, Republic of Korea, 06168
© 2026 Solto Industries Co.,Ltd. All Rights Reserved.