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1. | EXECUTIVE SUMMARY AND CONCLUSIONS |
1.1. | Purpose of this report |
1.2. | Definitions, needs and context |
1.3. | The seven primary applicational sectors of hydrogels beyond medical and trends |
1.4. | Hydrogel manufacturers |
1.5. | SWOT assessment for all hydrogel applications beyond healthcare 2022-2042 |
1.6. | SWOT assessment and conclusions for water management hydrogels 2022-2042 |
1.7. | SWOT assessment of hydrogels in construction materials 2022-2042 |
1.8. | SWOT assessment of hydrogels in electronic and electrical applications 2022-2042 |
1.9. | SWOT for hydrogels for personal care, cosmetics, hygiene 2022-2042 |
1.10. | Smart city systems as a hydrogel growth market 2022-2042 |
1.11. | Membranes for desalination, water recycling, mineral extraction, electronics, supercapacitors, batteries, fuel cells 2022-2042 |
1.12. | Emerging options for hydrogel chemistry 2022-2042 |
1.13. | Primary conclusions: tool kit 2022-2042 |
1.14. | Primary conclusions: general benefits 2022-2042 |
1.15. | Primary conclusions: research pipeline |
1.16. | Primary conclusions: manufacturers, patents and territories |
1.17. | Roadmaps 2022-2042 |
1.17.1. | Roadmap by application 2022-2042 |
1.17.2. | Self-healing materials roadmap 2022-2042 |
1.17.3. | Cement and concrete industry roadmap 2022-2042 |
1.18. | Hydrogel market forecasts 2022-2042 |
1.18.1. | Hydrogel raw material to third party product manufacturers kg, $/kg and value market $ billion 2022-2042 |
1.18.2. | Hydrogel raw material to third party product manufacturers by region 2022-2042 |
1.18.3. | Hydrogel raw material to third party product manufacturers by synthetic, natural, hybrid 2022-2042 |
1.18.4. | Hydrogel-dominant end products market $ billion by region 2022-2042 |
1.18.5. | Hydrogel-dominant end products market $ billion by application 2022-2042 |
1.18.6. | Self-healing materials sold as such: concrete, medical, other $ million 2022-2042 |
2. | INTRODUCTION |
2.1. | Definitions and the show so far |
2.2. | Examples of hydrogels for medical applications to put this study in context |
2.3. | Hydrogel functional choices and trends 2022-2042 |
2.3.1. | Some choices of structure and performance |
2.3.2. | Tunability of hydrogels |
2.3.3. | Catalysis hydrogels |
2.3.4. | Explosives hydrogels for mining |
2.4. | The vast choice of possible hydrogels |
2.5. | Megatrends potentially addressed by hydrogels |
2.5.1. | Global food crisis |
2.5.2. | Environmental crisis |
2.5.3. | The water crisis |
2.6. | Hydrogels help smart cities be cognitive, water and food independent, store energy |
2.7. | Generic issues and opportunities with hydrogels |
2.7.1. | Animal free hydrogels |
2.7.2. | 3D and 4D printing of hydrogels |
2.7.3. | Hydrogel toxicity and hydrogels to remove toxigens |
3. | HYDROGELS IN AGRICULTURE, VETERINARY, FIRE RISK LANDSCAPES, ANTI-FOULING |
3.1. | Agriculture with hydrogels |
3.2. | Trends and examples |
3.3. | Solving the problems and creating food independence |
3.3.1. | Many options and more on the way |
3.3.2. | YesHealth moves to hydrogels in Taiwan |
3.3.3. | Smart and nano hydrogel fertilisers and focussed defences |
3.3.4. | Alsta applications |
3.3.5. | Sandy soil hydrogel deployment |
3.4. | Veterinary hydrogels |
3.4.1. | Commercial situation |
3.4.2. | Mastitis treatment in goats and other animals |
3.4.3. | Hydrogel technology to treat joint lameness in horses |
3.4.4. | Rabbits' detached retina reattached with new hydrogel |
3.5. | Fire risk landscapes |
4. | WATER PURIFICATION, CAPTURE AND MINERAL EXTRACTION HYDROGELS |
4.1. | Overview |
4.2. | Hydrogels to the rescue |
4.3. | SWOT assessment of hydrogels for water capture, purification, controlled delivery |
4.4. | "Hydrogel water" patent trend and leading patentors |
4.5. | Future directions for hydrogels purifying water |
4.6. | Hydrogel advances for water purification |
4.6.1. | Adsorption |
4.6.2. | Solar evaporation |
4.6.3. | Filtration - membranes and draw solutes |
4.6.4. | Disinfection |
4.7. | Water capture with hydrogels |
4.7.1. | Fog harvesting and treatment |
4.7.2. | All-day water harvesting by PVA/PPy gel micro-tree array outdoors |
5. | CONSTRUCTION INCLUDING CONCRETE, SEALANT, MARINE ANTI-FOULING HYDROGELS |
5.1. | Overview |
5.2. | SWOT assessment for hydrogels for construction materials |
5.3. | "Hydrogel cement" patent trend and leading patentors |
5.4. | Cement and concrete |
5.4.1. | Overview |
5.4.2. | Aquron and Markham New Zealand |
5.4.3. | Intelligent Concrete LLC, of Colorado USA |
5.4.4. | Polyacrylic hydrogel in cement composites |
5.4.5. | Hydrogels containing nanosilica enhance cement pastes |
5.4.6. | Improved concrete materials with hydrogel-based internal curing agents |
5.4.7. | Graphene in concrete induces beneficial hydrogel formation |
5.5. | Sealant |
5.5.1. | "Hydrogel sealant" patent trend and leading patentors |
5.5.2. | Anti-fouling film and paint |
6. | ENERGY, ELECTRONICS, ELECTRICAL ENGINEERING, SOFT ROBOTICS |
6.1. | Overview |
6.2. | SWOT assessment for hydrogels in electronics and electrics |
6.3. | Electrolytes and electrodes for batteries and supercapacitors |
6.3.1. | "Hydrogel electrolyte" patent trend and leading patentors |
6.3.2. | The race for large solid-state batteries |
6.3.3. | Solid state battery partnerships in 2022 |
6.3.4. | The place of solid polymer electrolyte SPE, including gels, in SSB development |
6.3.5. | Polymer electrolyte issues including hydrogel |
6.3.6. | Hydrogel electrolytes for quasi-solid zinc-based batteries |
6.3.7. | Better performance without scarce materials |
6.3.8. | Flexible and stretchable energy storage |
6.3.9. | Graphene hydrogel-enabled fiber electrodes for capacitive energy storage |
6.3.10. | Self-healing stretchable supercapacitors |
6.3.11. | Flexible stretchable hydrogel electrolyte for healable all-in-one configured supercapacitors |
6.3.12. | Long life supercapacitor |
6.3.13. | Compressible supercapacitor |
6.3.14. | Stretchable compressible supercapacitor with polyacrylamide hydrogel electrolyte |
6.3.15. | Conductive hydrogel-based electrodes and electrolytes for stretchable and self-healable supercapacitors |
6.3.16. | Stretchable and flexible all-gel-state supercapacitor |
6.3.17. | Supercapacitors using natural hydrogel |
6.3.18. | Stretchable e-skin supercapacitor |
6.4. | Propulsive system |
6.5. | Sensors |
6.5.1. | Overview |
6.5.2. | "Hydrogel sensor" patent trend and leading patentors |
6.5.3. | Self-healing strain, flex, twist sensor |
6.5.4. | Self-healing conductive composite sensor |
6.5.5. | Aflatoxin food quality sensor |
6.5.6. | Wearable condition monitor |
6.6. | Soft photovoltaics and photodetectors |
6.7. | Photovoltaics cooling and tracking |
6.8. | Transistors |
6.9. | Soft robotics |
6.9.1. | Biomimetic |
6.9.2. | Soft robotics and shape memory hydrogels |
7. | PERSONAL CARE AND FAST MOVING CONSUMER GOODS HYDROGELS |
7.1. | Overview |
7.2. | SWOT assessment of hydrogels for personal care, cosmetics and hygiene |
7.3. | "Hydrogel" patent assignees are mainly healthcare or personal care companies |
7.4. | "Hydrogel cosmetic" patent trend and leading patentors |
7.5. | "Hydrogel anti ageing" patent trend and leading assignees |
7.6. | "Hydrogel skin care" patent trend |
7.7. | Challenges |
7.7.1. | Overview |
7.7.2. | 2020 study of polysaccharide-based superabsorbent polymers for sanitary napkins |
7.7.3. | Cellulose-based hydrogels for personal care products |
8. | SELF-HEALING HYDROGELS |
8.1. | Benefits of self-healing and what materials are related |
8.2. | Types of healing by material formulation and format |
8.3. | Spectrum of self-healing capabilities |
8.4. | How hydrogels fit in |
8.5. | "Self-healing material" patent assignees and trends |
8.6. | Self-healing basics |
8.7. | Self-healing hydrogel options |
8.8. | Biomimetic self-healing hydrogels and alternatives |
9. | HYDROGEL MEMBRANES |
9.1. | Overview |
9.2. | Example: Membrane for uranium extraction from seawater |
9.3. | "Hydrogel membrane" patent trend and leading assignees |
9.4. | Membranes for desalination, water recycling, mineral extraction, electronics, supercapacitors, batteries, fuel cells |
9.5. | Energy harvesting membrane |
9.6. | Membrane as supercapacitor separator |
9.7. | Agricultural and industrial membrane |
9.8. | Sensor membranes |
9.9. | Hydrogel sensor membrane for cell-on-chip microfluidic studies and other uses |
9.10. | Hydrogel membrane in osmotic energy conversion, water desalination and sensors |
幻灯片 | 310 |
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预测 | 2042 |
ISBN | 9781913899875 |