**Author details**

*Humic Substances*

future and us.

**Appendices and nomenclature**

4.Figure 4 ESR spectra of DCP

5.Figure 5 FTIR Spectra of DCP

**Appendix 2 – List of Tables**

6.Figure 6 FTIR spectra of standard HA

7.Figure 7 FTIR spectra of extracted HA

8.Figure 8 Raman spectra of standard HA

9.Figure 9 Raman spectra of extracted HA

1.Table 1 Proximate Analysis of DCP

3.Table 3 C,H,N,S,O analysis of DCP

6.Table 6 Raman spectral data of HA

4.Table 4 FTIR data of DCP

5.Table 5 FTIR data of HA

2.Table 2 Elemental Composition of Dry Cow dung by XRF

2.Figure 2 Thermogravimetric analysis spectra of DCP

3.Figure 3 Differential thermogravimetric analysis spectra of DCP

**Appendix 1 – List of Figures**

1.Figure 1. SEM of DCP

standard HA from IHSS holds great importance in the chapter. As our environmentalists and green chemists urge for *Reduce, Reuse, and Recycle* - the 3R's of Zero Waste Management theory, coined with Re-think, we can Re-balance the WFE Nexus and the sustainability of Life by employing DCP in various sectors as studied in this chapter. The utility of DCP will surely contribute to convert waste into wealth and refuse into resource, which is the ultimate goal of waste management strategy. This chapter tries to answer and express the great potential of DCP in the industry of Environmental Management, which can not only fix WFE Nexus but also the

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Hemlata K. Bagla Department of Nuclear and Radiochemistry, Kishinchand Chellaram College, Mumbai, India

\*Address all correspondence to: hemlata.bagla@kccollege.edu.in

© 2021 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
