Nanasaheb M Shinde
Overview
Explore the profile of Nanasaheb M Shinde including associated specialties, affiliations and a list of published articles.
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Articles
19
Citations
49
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Recent Articles
1.
Shinde N, Pumera M
ACS Appl Electron Mater
. 2024 Oct;
6(10):7339-7345.
PMID: 39464193
The development of advanced energy storage devices is critical for various applications including robotics and portable electronics. The energy storage field faces significant challenges in designing devices that can operate...
2.
Liu J, Xia Q, Wang L, Hu Q, Shinde N, Zhou A
ACS Appl Mater Interfaces
. 2024 Sep;
16(37):49380-49391.
PMID: 39226580
MoCT MXene materials, known for their high conductivity and abundant surface functional groups, are widely utilized as electrode materials in supercapacitors. However, their tendency to stack during electrochemical energy storage...
3.
Xia Q, Si L, Liu K, Zhou A, Su C, Shinde N, et al.
Molecules
. 2023 Jun;
28(11).
PMID: 37298783
A one-step sulfurization method to fabricate NiS nanowires (NiS NWs) directly on a Ni foam (NF) was developed as a simple, low-cost synthesis method for use as a supercapacitor (SC),...
4.
Shinde P, Shinde N, Shaikh S, Lee D, Yun J, Woo L, et al.
RSC Adv
. 2022 Jun;
10(29):17217-17227.
PMID: 35693914
Room-temperature (27 °C) synthesis and carbon dioxide (CO)-gas-sensor applications of bismuth oxide (BiO) nanosensors obtained a direct and superfast chemical-bath-deposition method (CBD) with different surface areas and structures, , crystallinities...
5.
Singh S, Sahoo R, Shinde N, Yun J, Mane R, Chung W, et al.
RSC Adv
. 2022 May;
9(55):32154-32164.
PMID: 35530813
In the current study, we have explored the coupling of BiO negative electrode and MnO positive electrode materials as an asymmetric faradaic assembly for a high-performance hybrid electrochemical energy storage...
6.
Kim K, Shinde N, Yun J, Kim K
RSC Adv
. 2022 Apr;
11(21):12449-12459.
PMID: 35423812
Layered double hydroxides (LDHs) have drawn significant interest as emerging active materials for advanced energy storage devices; however, their low electric and ionic conductivity limit their applications. In this study,...
7.
Raut S, Shinde N, Nakate Y, Ghule B, Gore S, Shaikh S, et al.
ACS Omega
. 2021 May;
6(19):12623-12630.
PMID: 34056413
The organic and eco-friendly materials are extended to prevail over the worldwide energy crisis where bio-inspired carbonaceous electrode materials are being prepared from biogenic items and wastes. Here, coconut water...
8.
Shinde N, Raut S, Ghule B, Gunturu K, Pak J, Mane R
Dalton Trans
. 2021 Apr;
50(19):6500-6505.
PMID: 33904565
A promising electrode for hydrogen evolution reaction (HER) has been prepared via a reduction process to form NiF2 nanorod arrays directly grown on a 3D nickel foam. We reveal NiF2@Ni...
9.
Ghule B, Shinde N, Raut S, Shaikh S, Al-Enizi A, Kim K, et al.
J Colloid Interface Sci
. 2021 Jan;
589:401-410.
PMID: 33482537
Nickel oxide-graphene oxide (NiO-GO), zinc oxide-graphene oxide (ZnO-GO) and bismuth oxide-graphene oxide (BiO-GO) metal oxide-graphene oxide nanocomposite (MO-GO NC) sensors, operable at room temperature, were synthesized via a simple and...
10.
Lee D, Lee H, Shinde N, Yun J, Mathur S, Kim K
Dalton Trans
. 2020 Sep;
49(37):13123-13133.
PMID: 32930269
The surface characteristics of electrodes vary depending on the solvent used. Furthermore, electrochemical performance varies depending on the surface morphology of the electrode. In this study, we grew 3D binary...