Book chapter 414 views
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications
Anitha Devadoss 
,
Nagarajan Srinivasan,
V.P. Devarajan,
A. Nirmala Grace,
Sudhagar Pitchaimuthu
,
Nagarajan Srinivasan,
V.P. Devarajan,
A. Nirmala Grace,
Sudhagar Pitchaimuthu
2D Nanoscale Heterostructured Materials, Volume: 97, Pages: 215 - 241
Swansea University Authors:
Anitha Devadoss , Sudhagar Pitchaimuthu
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DOI (Published version): 10.1016/B978-0-12-817678-8.00008-7
Abstract
This chapter provides a generalized overall picture about fundamental electrochemical properties of transition metal dichalcogenides (TMDs) and their recent applications in wide range of energy technologies (battery, supercapacitor, and water splitting). The high surface area, large number of active...
| Published in: | 2D Nanoscale Heterostructured Materials |
|---|---|
| ISBN: | 978-0-12-817678-8 |
| Published: |
Amsterdam, Netherlands
Elsevier
2020
|
| URI: | https://cronfa.swan.ac.uk/Record/cronfa54681 |
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| spelling |
2020-08-24T11:16:31.4648045 v2 54681 2020-07-09 Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications a01150750f1c8eccbfeebffdde3fe8a1 0000-0002-8052-1820 Anitha Devadoss Anitha Devadoss true false 2fdbee02f4bfc5a1b174c8bd04afbd2b 0000-0001-9098-8806 Sudhagar Pitchaimuthu Sudhagar Pitchaimuthu true false 2020-07-09 EEN This chapter provides a generalized overall picture about fundamental electrochemical properties of transition metal dichalcogenides (TMDs) and their recent applications in wide range of energy technologies (battery, supercapacitor, and water splitting). The high surface area, large number of active sites, and remarkable chemical stability offer TMDs with vast opportunities for utilizing as a promising electrocatalysts. However, inadequate electrical conductivity and other deficiencies foster considerable research efforts for further modification. The TMDs showed enhanced electrocatalytic performance through (1) site doping/modification, (2) phase modulation, (3) control of growth morphology, and (4) heterostructure formation. This chapter summarizes the recent demonstration of these methodologies in TMDs towards designing the efficient and benchmarking electrocatalysts. Furthermore, the underlying mechanism of device functionality, materials challenges, and perspectives of TMD based electrocatalysts are also discussed in this chapter. Book chapter 2D Nanoscale Heterostructured Materials 97 215 241 Elsevier Amsterdam, Netherlands 978-0-12-817678-8 TMDs, MoS2, electrocatalyst, water splitting, battery, supercapacitor 31 8 2020 2020-08-31 10.1016/B978-0-12-817678-8.00008-7 COLLEGE NANME Engineering COLLEGE CODE EEN Swansea University 2020-08-24T11:16:31.4648045 2020-07-09T15:41:28.2566086 Anitha Devadoss 0000-0002-8052-1820 1 Nagarajan Srinivasan 2 V.P. Devarajan 3 A. Nirmala Grace 4 Sudhagar Pitchaimuthu 0000-0001-9098-8806 5 |
| title |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications |
| spellingShingle |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications Anitha Devadoss Sudhagar Pitchaimuthu |
| title_short |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications |
| title_full |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications |
| title_fullStr |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications |
| title_full_unstemmed |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications |
| title_sort |
Electrocatalytic properties of two-dimensional transition metal dichalcogenides and their hetrostructures in energy applications |
| author_id_str_mv |
a01150750f1c8eccbfeebffdde3fe8a1 2fdbee02f4bfc5a1b174c8bd04afbd2b |
| author_id_fullname_str_mv |
a01150750f1c8eccbfeebffdde3fe8a1_***_Anitha Devadoss 2fdbee02f4bfc5a1b174c8bd04afbd2b_***_Sudhagar Pitchaimuthu |
| author |
Anitha Devadoss Sudhagar Pitchaimuthu |
| author2 |
Anitha Devadoss Nagarajan Srinivasan V.P. Devarajan A. Nirmala Grace Sudhagar Pitchaimuthu |
| format |
Book chapter |
| container_title |
2D Nanoscale Heterostructured Materials |
| container_volume |
97 |
| container_start_page |
215 |
| publishDate |
2020 |
| institution |
Swansea University |
| isbn |
978-0-12-817678-8 |
| doi_str_mv |
10.1016/B978-0-12-817678-8.00008-7 |
| publisher |
Elsevier |
| document_store_str |
0 |
| active_str |
0 |
| description |
This chapter provides a generalized overall picture about fundamental electrochemical properties of transition metal dichalcogenides (TMDs) and their recent applications in wide range of energy technologies (battery, supercapacitor, and water splitting). The high surface area, large number of active sites, and remarkable chemical stability offer TMDs with vast opportunities for utilizing as a promising electrocatalysts. However, inadequate electrical conductivity and other deficiencies foster considerable research efforts for further modification. The TMDs showed enhanced electrocatalytic performance through (1) site doping/modification, (2) phase modulation, (3) control of growth morphology, and (4) heterostructure formation. This chapter summarizes the recent demonstration of these methodologies in TMDs towards designing the efficient and benchmarking electrocatalysts. Furthermore, the underlying mechanism of device functionality, materials challenges, and perspectives of TMD based electrocatalysts are also discussed in this chapter. |
| published_date |
2020-08-31T04:08:21Z |
| _version_ |
1763753592816140288 |
| score |
11.036706 |