Intellectual Capital Investment and Firm Performance of the Malaysian Energy Sector: A New Perspective From a Nonlinearity Test

This study examines the association between intellectual capital investment and firm performance of the Malaysian energy sector. A non-linear relationship between intellectual capital investment and firm performance is established. At low levels of intellectual capital investment, increasing investments in intellectual capital improve firm performance. After a cut-off point, increments to intellectual capital investment reduce firm performance.


Introduction Introduction
Intellectual capital (IC) plays a crucial role in a firm's strategic management. IC is considered the foremost resource because of its features, such as being valuable, scarce, inimitable, and non-substitutable. Edvinsson and Sullivan (1996) suggest that the profitability of firms is mainly derived through their IC. According to the International Integration Reporting Council, the value of a firm is created through its external environment, relationships, and various resources. Therefore, a firm's products, people, environment, and processes play a significant role in its successful strategy. However, Li and Zhao (2018) emphasize that the association between IC and firm performance is a black box and it is not straightforward. In other words, IC is linked to both firm costs and benefits. To further investigate this issue, our paper attempts to explore how the IC investment level affects performance of firms listed in the energy sector of Bursa Malaysia for the period 2009-2018. The phenomenon of IC helps stimulate innovative ideas and advanced procedures and systems in the energy sector of Malaysia by generating and transmitting energy-related products to different stakeholders. Furthermore, the Malaysian government aims to promote sustainable growth through proper utilization of IC investments. Similarly, the Eleventh Malaysia Plan 2016-2020 aims to accelerate the development of human capital; thereby, facilitating sustainable economic growth. This research attempts to contribute to the literature by investigating the nonlinear effects of IC investment on firm performance in the Malaysian energy sector. The nonlinear impacts are observed in IC, as well as in its constituents, namely, human capital and capital employed.
The findings of this study extend the literature from two perspectives. First, this study utilizes a unique sample of energy sector firms to investigate the impact of IC investment on firm performance. Previous studies on Malaysia do not consider energy firms. By doing so, we provide energy-specific insights on the relation between IC investment and firm performance. Second, in contrast to Huang and Liu (2005), who only address innovation capital and information technology as components of IC, we explore the linearity and non-linearity relation between IC investments (human capital, structural capital and relation capital) and firm performance. Our goal is to offer findings that will provide inspiration to future studies in assessing the impact of IC investment on firm performance.
The paper is organized as follows. The hypotheses are developed in Section 2. Section 3 presents the methods employed by this study. Section 4 contains results and the final section offers concluding remarks. Sardo and Serrasqueiro (2018) suggest that IC prompts innovation and growth of firms. Greater investment in IC resources helps firms convey commitment toward their longevity. In this way, firms can benefit from building a good reputation among their competitors. Similarly, firms facilitate their acquisition of new knowledge by developing collaborations (Kianto et al., 2017). Smriti and Das (2018) further confirm the contribution of IC to a firm's value creation. Additionally, Young, Su, Fang, and Fang (2009) point out that human and physical capital are the main sources of a firm's wealth creation. We infer that the profitability of firms is mostly due to the intangible resources of an organization in the energy sector. Accordingly, we hypothesize that IC investments are positively related to firm performance.

Literature Review and Hypotheses Development Literature Review and Hypotheses Development
Hypothesis 1a: Intellectual capital investment is positively associated with firm performance in the energy sector.
IC-related investment may become a curse for firms when it generates detrimental effects. Prior research has found that firms are constrained to accumulate IC investments because of certain costs associated with IC resources. Firms, for instance, must undergo an extensive waiting period before experiencing benefits from IC investments (Kweh et al., 2019), and such a wait is considered a time cost. The costs associated with IC investments are substantial as well as risky, and this situation might produce a negative firm return. Subramanian and van de Vrande (2019) posit that huge IC investments generate high costs in terms of new product development. They further argue that these long-term investments are difficult to conclude once initiated because of their substantial initial costs.
Hypothesis 1b: Intellectual capital investment is negatively associated with firm performance in the energy sector.

Measurement of Variables Measurement of Variables
The IC and its components are utilized as main testing variables. The IC and its components, namely, human capital efficiency (HCE), structural capital efficiency (SCE), and capital employed efficiency (CEE) are derived from Pulic (2000). The model has certain features that distinguish it from other methods such as simplicity, data availability, comparability, and wide application. The quotient of value added (VA) and human capital (HC) is named as HCE, where VA is computed by taking the difference of operational revenues and expenses. HC is proxied by the remuneration of employees. The fraction of VA to structural capital (SC) is named SCE, where SC is computed as the difference between VA and HC. CEE is computed by dividing VA by CE, where net assets are considered as a proxy for CE.
Return on assets (ROA) is an internal measure of firm performance and is computed as the ratio of net earnings to total assets of firms. Firm age (FAGE) and current ratio (CR) are control variables. FAGE is computed as the logarithm of the number of years since a firm was established. Finally, CR is quantified by dividing a firm's short-term assets by its short-term liabilities.

Empirical Models Empirical Models
The Lagrange Multiplier (LM) test is employed to decide between pooled-OLS and panel data regression models. The Breusch-Godfrey Serial Correlation LM test indicates that panel regression (fixed effect model with the Hausman test (p < 0.05) is applicable for IC and pooled-OLS is suitable for IC components. This study thus applies either panel data regression or ordinary least squares in assessing the impacts of IC and its constituents on firm performance. Specifically, the following empirical models are developed to estimate linear effects: From Equations (1) and (2), Equations (3) and (4) are specified by including the respective squares of IC and IC components to capture the nonlinear effects of IC investments on firm performance. These models are as follows.

Findings Findings
In untabulated results of the Pearson correlation coefficients, we find that all coefficients are lower than 36 percent except for HCE and IC, indicating that the multicollinearity issue does not exist between firm performance and the explanatory variables. Table 1 presents the outcomes from regression models and reveals the linear relationship of IC and its components with the dependent variable ROA. The results from Equation (1) show that IC plays a vital role in improving firm performance. These findings corroborate those of Smriti and Das (2018), who show that IC investment plays a crucial role in the generation of a company's wealth. Moreover, our findings suggest that HCE and CEE contribute to firm performance in the Malaysian energy sector. This result is consistent with Young, Su, Fang, and Fang (2009), who identify human and physical capital as the dominant source of financial performance for Malaysian firms.
This study also assesses the nonlinear association between IC investment and firm performance.   that IC is statistically significant and positive, whereas the coefficient on IC 2 is statistically significant and negative. These results present the inverse U-shaped behavior of IC investment on firm performance. At the initial stage, IC investment contributes remarkably to firm performance in a positive way. However, after a certain tangent point at a higher level of investment, its positive effect reverts to a negative impact. Equation (4) uncovers nonlinear patterns of the individual elements of IC in explaining firm performance. According to Table 2, HCE has a positive coefficient of 0.0157, while the coefficient of HCE 2 is -0.0002. Thus, a quadratic relationship exists between HCE and firm performance. Consistently, the result of Equation (4) indicates a positive effect of CEE and a negative effect of CEE 2 . Those outcomes suggest that the higher the human capital and physical capital investment, the better the firm performance of the Malaysian public listed energy sector. However, firm performance is negatively affected by HCE and CEE after a cutoff point because HCE and CEE investments are more costly compared to returns. Again, both SCE and SCE 2 are statistically insignificant, thereby confirming that SCE is not an antecedent of firm performance. These results are consistent with those of Ting and Lean (2009) for the Malaysian market in relation to the financial sector.

Conclusion Conclusion
Using Malaysian data, we show that intellectual capital and its constituents (human capital and capital employed) form an inverse U-shape relationship with energy sector firm performance. The structural capital shows no such linear and nonlinear relationship. In other words, the human capital and capital employed hamper firm performance after a certain cut-off point. The findings suggest that investors in energy firms should favor more input of physical and human capital. The results of this study are, thus, helpful for investors and policy legislators. Moreover, favorable policies should be introduced for prospective investors. Future studies should explore effectiveness of policies and investor returns in the Malaysian energy sector.