Fabrication of CNT-N@Manganese Oxide Hybrid Nanomaterials through a Versatile One-Pot Eco-Friendly Route toward Engineered Textile Supercapacitors.
Joana S TeixeiraRui S CostaAlexandra GuedesAndré M PereiraClara Rodrigues PereiraPublished in: ACS applied engineering materials (2024)
The expansion of the Internet of Things market and the proliferation of wearable technologies have generated a significant demand for textile-based energy storage systems. This work reports the engineered design of hybrid electrode nanomaterials of N-doped carbon nanotubes (CNT-N) functionalized with two types of manganese oxides (MOs)-birnessite (MnO 2 ) and hausmannite (Mn 3 O 4 )-and their application in solid-state textile-based hybrid supercapacitors (SCs). A versatile citric acid-mediated eco-friendly one-pot aqueous precipitation process is proposed for the fabrication of the hybrids. Remarkably, different types of MOs were obtained by simply changing the reaction temperature from room temperature to 100 °C, without any post -thermal treatment. Asymmetric textile SCs were developed using cotton fabrics coated with CNT-N and the hybrids as textile electrodes, and poly(vinyl) alcohol/orthophosphoric acid as the solid-gel electrolyte. The asymmetric devices presented enhanced energy storage performance relative to the symmetric device based on CNT-N and excellent cycling stability (>96%) after 8000 charge/discharge cycles owing to synergistic effects between CNT-N and the MOs, which endowed nonfaradaic and pseudocapacitive features to the SCs. The asymmetric SC based on CNT-N@MnO 2 featured 47% higher energy density and comparable power density to the symmetric CNT-N-based device (8.70 W h cm -2 at 309.01 μW cm -2 vs. 5.93 W h cm -2 at 346.58 μW cm -2 ). The engineered hybrid CNT-N@MO nanomaterials and the eco-friendly citric acid-assisted one-pot precipitation route open promising prospects not only for energy storage, but also for (photo)(electro)catalysis, wastewater treatment, and (bio)sensing.
Keyphrases
- solid state
- wastewater treatment
- room temperature
- quantum dots
- carbon nanotubes
- antibiotic resistance genes
- ionic liquid
- reduced graphene oxide
- low cost
- highly efficient
- emergency department
- healthcare
- visible light
- signaling pathway
- health information
- health insurance
- mass spectrometry
- adverse drug
- combination therapy
- current status
- electronic health record
- metal organic framework