Abstract
Purpose
There is a need for research examining how governments and firms responded to the coronavirus disease (COVID-19) pandemic. This study investigates the interdependence between governments and innovative small and medium-sized enterprises (SMEs) during the pandemic in relation to the dynamic capabilities and resource dependence theories.
Design/methodology/approach
We use World Bank survey data collected immediately before and after the COVID-19 outbreak and a generalized structural equation model to examine the mediating role of government support in the relationship between firm innovation, resilience and survival.
Findings
Innovative SMEs exhibited higher resilience and a better chance of survival during the pandemic, partly due to attracting more government support.
Originality/value
This study offers a novel understanding of the government’s role in supporting innovative SMEs during the pandemic. The findings have implications for how government support policies can limit the deadweight effect and the substitution effect.
Keywords
Citation
Nguyen, H.T., Vu, T.T.D., Nguyen, H.M. and Nguyen, D.B.P. (2024), "SMEs’ innovation and government support during the COVID-19 pandemic", Journal of Asian Business and Economic Studies, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/JABES-08-2023-0300
Publisher
:Emerald Publishing Limited
Copyright © 2024, Hang Thu Nguyen, Tra Thi Dan Vu, Hiep Manh Nguyen and Dung Bui Phuong Nguyen
License
Published in Journal of Asian Business and Economic Studies. Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) licence. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial and non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this licence may be seen at http://creativecommons.org/licences/by/4.0/legalcode
1. Introduction
Many firms were forced to close during the coronavirus disease (COVID-19) pandemic. Demmou et al. (2021) estimated that approximately 38% of firms would have faced a liquidity crunch after ten months without government intervention. As small and medium-sized enterprises (SMEs) tend to rely on internal funds, their liquidity is more severely affected by large declines in sales (OECD, 2020; Dörr et al., 2022). This makes research into how SMEs can survive crises more relevant.
As enterprises are vital to long-term productivity, prosperity and social welfare, governments adopted wide-ranging measures to help them combat the devastating impact of the pandemic, including generous financial packages to prevent firms from collapsing (Didier et al., 2021; Dörr et al., 2022). However, due to limited resources, asymmetric information and urgency, allocating government subsidies is a difficult task and governments needed to narrow down the targeted firms (Didier et al., 2021). Governments face two dilemmas in delivering aid: The deadweight effect and the substitution effect (Groenewegen et al., 2021; Baghana and Mohnen, 2009; Santarelli and Vivarelli, 2002). The deadweight effect occurs when government support is wasted on firms that do not need it. The substitution effect refers to the consequences of government subsidies when they allow inefficient “zombie” firms to survive with cheap money, hampering competition and creative destruction. The COVID-19 pandemic provided an opportunity to study this important dilemma, which should prove valuable to policymakers when coping with future crises.
We use a cross-country dataset provided by the World Bank to investigate the role of firm innovation and government support in SMEs’ survival and resilience during the pandemic. We define an SME as a firm with fewer than 250 employees and annual sales of less than EUR 50 million (USD 57.8m) [1]. Consistent with dynamic capabilities theory, we find that SMEs that were innovative immediately before the pandemic were more likely to show resilience and successfully navigate the pandemic. Specifically, innovative SMEs were more likely to change their business models by introducing new products and services, increasing online business activities and switching to carry-out models. These results corroborate those of Cefis and Marsili (2019) and Chit et al. (2022), who showed that innovative capabilities improved firm survivability during the 2008 crisis and the COVID-19 pandemic.
Moreover, we show how governments helped SMEs overcome crises. Predictably, we find that governments prioritized supporting firms that sustained more damage due to the pandemic and that this support aided their survival. Nevertheless, we show that governments offer more than needs-based support. Using a structural equation model, in which government support mediates the relationship between innovation and SMEs’ survival, we provide evidence that innovative firms are more likely to receive government support. This provides innovative firms with more confidence to innovate, implement resilience measures and survive.
The results provide novel contributions to the academic literature, along with offering important policy implications. They compound arguments in prior studies that government support programs can be effective and efficient by targeting innovative firms (Dörr et al., 2022) or firms that are severely affected but viable in the long run (Groenewegen et al., 2021; Cirera et al., 2021). While governments focused on those SMEs most severely hit by the pandemic, they should take care not to allow generous support to distort economic incentives and hamper the Schumpeterian process (Dörr et al., 2022) or to destroy the innovativeness and competitiveness of the post-crisis economy. Our findings align with previous studies showing that governments play an increasing role in stimulating SMEs’ innovation (North et al., 2001; Doh and Kim, 2014), as innovative SMEs face more constraints in financial access and have limited internal funds (Pederzoli et al., 2013; North et al., 2001).
2. Literature review and hypothesis development
2.1 Government support and firm survival
According to resource dependence theory, firms maintain many links within their ecosystem that provide access to much-needed resources and support (Sheppard, 1995; Pfeffer and Salancik, 2003). Among these, the link to the government is important, particularly during crises (Hillman et al., 2009; Pfeffer and Salancik, 2003), as the government can set and enforce regulations, control key resources, provide direct cash subsidies, place restrictions on the entry of rivals, regulate substitutes and complements, fix prices, control competition and offer tax waivers and relief (Pfeffer and Salancik, 2003).
The relationship is not one-way, but rather interdependent and reciprocal. Firms are instrumental in the achievement of government goals (Thukral, 2021). In times of crisis, providing firms with financial support enables the government to save the entire economy. As an emergency measure to contain corporate insolvency during the pandemic, many governments provided firms, especially SMEs, with direct cash subsidies and other supports (Dörr et al., 2022; Devereux et al., 2020; Demmou et al., 2021).
Lockdowns, quarantines and restrictions threaten the survival of firms (Wenzel et al., 2020). Many firms experienced a large decline in production and sales (Dörr et al., 2022; Demmou et al., 2021; Devereux et al., 2020). Demmou et al. (2021) estimated that without government intervention, approximately 38% of firms would have faced a liquidity crunch ten months after the implementation of quarantine regulations. SMEs were affected more than large firms (OECD, 2020). Without government support, many would have gone bankrupt (Dörr et al., 2022). Shafi et al. (2020) examined Pakistani SMEs during the pandemic and found that 67.93% could not survive without government support.
To examine the effectiveness of government support on SME survival during the COVID-19 pandemic, we propose the following hypothesis.
SMEs that received government support during the COVID-19 pandemic were more likely to survive.
2.2 The deadweight effect, the substitution effect and supporting innovative firms
In delivering support to firms during the pandemic, governments face the dilemma of the deadweight effect and the substitution effect (Groenewegen et al., 2021; Baghana and Mohnen, 2009; Santarelli and Vivarelli, 2002). The deadweight effect implies that government subsidies reached firms that would have survived the pandemic even without aid. The substitution effect refers to the situation in which government aid keeps inefficient firms alive. Devereux et al. (2020) argued that government subsidies limit firms’ incentives to adapt to new business conditions, potentially hindering the Schumpeterian creative destruction process. Inefficient firms that would have gone bankrupt regardless of the pandemic may have survived due to government subsidies (Groenewegen et al., 2021; Dörr et al., 2022). Dörr et al. (2022) showed that the German government’s largely indiscriminate granting of liquidity subsidies during the pandemic prolonged the survival of inviable small firms.
Government resources dedicated to this support are limited. Cirera et al. (2021) reported that only one in four firms received any type of public support, and this number was lower in lower-income countries. The support schemes required a huge number of fiscal costs (Devereux et al., 2020; Cirera et al., 2021). Governments must be wise in the use of this costly support, keeping the substitution and deadweight effects in check.
Devereux et al. (2020) emphasized that government support should intentionally shape business incentives and stimulate economic activities during the recovery phase. Groenewegen et al. (2021) showed that the Dutch government’s aid achieved both effectiveness and efficiency when targeting both firms hit hard by the pandemic and better-managed firms that were more viable in the long run. Cirera et al. (2021) reported that large or formal firms are more likely to access public support. Dörr et al. (2022) suggested that support programs target innovative firms.
While external support was necessary during the pandemic, SMEs had to address the challenges themselves (Thorgren and Williams, 2020; Adam and Alarifi, 2021). Resilience within crisis management enabled firms to respond to the pandemic (Kuckertz et al., 2020; Thukral, 2021; Li et al., 2021). Resilience is not only the capacity to cope with short-term turbulence, but also the innovative ability to adapt to dynamic business conditions in the long term (Li et al., 2021). Resilient firms view innovation practices as part of their organizational culture and as a means to achieve a competitive advantage (de Oliveira Teixeira and Werther, 2013). In times of turbulence, when previously acquired competencies become obsolete, innovation reforms substantive capabilities and leads to the development of new or improved products or services (Nunes and Lopes, 2015). To survive the pandemic and develop the business in the long run, SMEs must adjust and innovate (Ratten, 2020; Thukral, 2021). Adam and Alarifi (2021) and Chit et al. (2022) found that innovative SMEs were more likely to survive the COVID-19 pandemic.
However, financial constraints may prevent innovative firms from achieving resilience. Innovative SMEs encounter more difficulty in accessing funds (Pederzoli et al., 2013; North et al., 2001; Nguyen et al., 2022a). The risk and high asymmetric information of innovation (Bond et al., 2005; Martí and Quas, 2018) inhibit innovative firms from accessing banks and financial markets. Thus, public support plays an increasingly important role in SME innovation (North et al., 2001; Doh and Kim, 2014). Government support alleviates difficulties in financing research and development (R&D) investments (Hewitt-Dundas and Roper, 2017). This can be achieved through direct channels, such as grants for R&D and innovation activities, or indirect channels, such as tax waivers and relief (Patrucco et al., 2022). These assist firms in creating innovative capabilities to develop, produce and commercialize much-needed, highly value-added products and services. The ultimate goal is to improve productivity, economic growth and welfare (Afcha and García-Quevedo, 2016).
This was especially important during the COVID-19 pandemic, when governments relied on firms for innovative solutions to urgent issues. Several governments have attempted to develop innovative products and services (Patrucco et al., 2022). Azoulay and Jones (2020) suggested that government support for private-sector innovation was crucial for overcoming the pandemic. Dörr et al. (2022) recommended that government support be allocated to SMEs that responded innovatively to the pandemic.
We propose the following hypotheses.
Innovative SMEs were more likely to receive government support during the COVID-19 pandemic.
Government support mediated the positive effects of innovation on firms’ resilience and survival during the COVID-19 pandemic.
3. Data and variable construction
3.1 Data
We use data from the Enterprise Surveys 2019 and COVID-19 Surveys from 2020 on the World Bank data portal [2], which were conducted by the World Bank Group, the European Bank for Reconstruction and Development, the European Investment Bank and the Development Economics Vice Presidency. In addition to several core questions covering a wide range of business environments in the standard Enterprise Surveys, follow-up surveys provided a snapshot of the impact of the pandemic on the private sector.
In total, we have had a cross-sectional dataset of 17,707 manufacturing, retail and other service firms. As we are interested in SMEs, we retain firms with fewer than 250 employees and annual sales of no more than EUR 50 million (USD 57.8m). We lose several observations because of missing data. Finally, we have 6,869 observations of SMEs in 21 countries and territories. Table A1 [3] in the Online Appendix lists the number of firms surveyed in each country. The surveyed firms are from emerging countries in Europe, Asia and Africa. However, there are two developed markets, including Italy and Portugal. Survey experts decided the sample selection in each country to represent the economy. The complete dataset and details of the survey questions, methodology and implementation are publicly available on the World Bank data portal.
3.2 Models and variable construction
As survival is a binary variable, we estimate the following probit model to test hypothesis H1, where
As we are interested in the mediating role of government support in this relationship, as illustrated in Figure A1 [3] in the Online Appendix, we estimate a generalized structural equation model of two probit models, including Equations (1) and (2).
Bagozzi (1977) introduced a structural equation model into marketing research. This method has been extensively used in marketing (Bagozzi and Yi, 1988; Henseler, 2012), management (Shook et al., 2004) and medicine (Bentler and Stein, 1992; Kupek, 2006). Equation (2) is the mediation equation, where
3.3 Variable construction
3.3.1 Enterprise survival and resilience
We use four proxies to measure firm survival and resilience. First, OPEN is a dummy variable that takes the value of one if the firm was still in business in the third round of the Follow-up COVID-19 Survey and zero otherwise. Although all three rounds of the COVID-19 surveys contained this information, there were inconsistencies. For example, 22 firms stated that they closed permanently in the first round but opened again in the second round. Therefore, we use only the status in the last round to measure firm survival. Moreover, by the time the third-round survey was conducted, most countries had contained the pandemic and firms that were still open in this round could be considered to have survived the pandemic.
Resilience is an important aspect of crisis management, representing the creative ability to adjust business operations and survive crises (Kuckertz et al., 2020; Thukral, 2021). We used three dummy variables, NEWPROD, ONLINE and CARRYOUT, to measure firm resilience. NEWPROD takes the value of one if the firm answered in at least one round that it introduced new or improved products or services in response to the COVID-19 outbreak and zero otherwise. ONLINE takes the value of one if the firm answered in at least one round that it started or increased online business activities in response to the COVID-19 outbreak and zero otherwise. CARRYOUT takes the value of one if the firm answered in at least one round that it started or increased delivery or carried out goods or services in response to the COVID-19 outbreak and zero otherwise.
3.3.2 Innovation capability
INNO measures innovation capability. INNO is one if, according to the Enterprise Survey 2019, during the previous three years, the firm had “introduced new or improved products or services” or “introduced any new or improved process,” and zero otherwise. A new or improved process is defined as “methods of manufacturing products or offering services; logistics, delivery, or distribution methods for inputs, products, or services; or supporting activities for processes.”
It is worth noting that INNO measures firms’ innovation capabilities prior to the pandemic, whereas NEWPROD, ONLINE and CARRYOUT measure their resilience during the pandemic in response to the COVID-19 outbreak. As the COVID-19 pandemic was unexpected exogenous shock, reverse causality was unlikely.
3.3.3 Government support
Follow-up COVID-19 Surveys also asked, “In the last 12 months, has this establishment received any national or local government support in response to the crisis?” We construct GOVSPRT as a dummy variable, which equals one if the response to this question is “Yes” in one of the three rounds of COVID-19 surveys and zero otherwise.
3.3.4 Control variables
We use the variable NEEDAID to test whether government support reached firms that needed aid and to observe the effect of deadweight loss. Groenewegen et al. (2021) used firms’ low revenue expectations and high revenue uncertainty for the next 12 months as measures of the need for aid. In each of the three rounds of COVID-19 surveys, two questions were asked: “Comparing this establishment’s sales for [insert last completed month] with the same month in 2019, did sales increase, remain the same, or decrease?”; and “Since the outbreak of COVID-19, has/have this establishment’s liquidity or cash flow increased, remained the same, or decreased?” The answer received values of 1, 2, or 3 if the firm reported that sales or cash flows increased, remained the same, or decreased, respectively. We defined NEEDAID as the average value of the answers to all six questions in the three rounds. A higher value of NEEDAID indicates a more severe impact of the pandemic on the firm’s cash flows and, thus, a higher need for aid. If NEEDAID is positively associated with government support, deadweight loss will be limited (Groenewegen et al., 2021).
We use firm size, the natural logarithm of sales in USD [4] (LNSALE), the natural logarithm of firm age (LNAGE) and EXPORT – a dummy variable that takes the value of one if the firm had export activities, as control variables. Firm size, age and export activities can improve a firm’s likelihood of survival (Esteve-Pérez and Mañez-Castillejo, 2008). Firms that gain sales from export activities are less likely to default because participation in international markets requires competitiveness and efficiency, which results in better survival prospects (Esteve-Pérez and Mañez-Castillejo, 2008). This could have been different in the COVID-19 pandemic, as transport disruptions and social distancing had an adverse impact on exporting firms.
Political connections can improve firm survival (Du and Girma, 2010). It is easier for firms with close relationships with government agencies or officials to obtain state-controlled resources or access to financing (Haveman et al., 2017; Peng et al., 2016). In addition to state ownership and the political connections of managers (Marquis and Qian, 2014), government contracts can be considered a proxy for political connections (Ngo and Susnjara, 2020; Nguyen et al., 2022c). POLI is a dummy variable that equals one if the firm is partially or wholly owned by the government, if any top managers and board members have ever been elected or appointed to a political position, or if the firm secured or attempted a government contract and zero otherwise.
Networks with business partners are an essential resource for firms’ survival and growth, as they enhance their adaptability to environmental changes and improve their ability to access external resources (Chen and Wu, 2011; Wu and Chen, 2012). We define ASSO as a dummy variable that equals one if the firm belongs to a business membership organization, trade association, guild, chamber of commerce, or other business support groups and zero otherwise.
Finally, industry and country dummies are included in the model to control for industry- and country-specific effects.
4. Results
Table A2 [3] in the Online Appendix reports the summary statistics. As much as 95.2% of the firms were open when the third round of the Follow-up Survey on COVID-19 was conducted. This is higher than the corresponding numbers in Chit et al. (2022) and Nguyen et al. (2022b) because we use only the open status of reporting firms in the third-round survey to measure firm survival. Unreported tests that treated non-responding firms as “closed” yielded results qualitatively similar to those presented in this paper.
In all three survey rounds, 23.1% of the firms introduced new or improved products or services, 20.7% started or increased online business activities and 27.5% started or increased the delivery or carry-out of goods or services. Immediately before the pandemic, 33.4% of respondents reported innovation outcomes. Government support in response to the pandemic reached 43.3% of SMEs. The mean NEEDAID was 2.355, indicating that most firms experienced a decline in sales or cash flow during the pandemic. Untabulated results indicate that 5,503 firms (80.1%) reported decreases in sales and cash flows at least once in six questions from the three survey rounds.
Table 1 reports the regression results of Equation (1). The coefficients of GOVSPRT are positive and strongly significant in all columns, thus supporting hypothesis H1. Government support kept SMEs afloat and encouraged their resilience during the pandemic. This finding is in line with arguments about the role of government support during the pandemic (Dörr et al., 2022). The marginal effects estimated from the regression in Column (1) show that government support increased the probability of firm survival, meaning that it reduced the probability of firm closure by 2.8%. Given that the average probability of firm closure was 4.8%, government support on average could reduce the risk of firm closure by as much as 58% (2.8 divided by 4.8), suggesting that government support during the COVID-19 pandemic was economically effective. The marginal effects of GOVSPRT on NEWPROD, ONLINE and CARRYOUT were 9.8%, 10.1% and 13%, respectively. These are respectively 42.4%, 48.8% and 47.3% of the means of NEWPROD, ONLINE and CARRYOUT, indicating that government support boosted firm resilience during the COVID-19 pandemic.
The coefficients of INNO are strongly significant and positive in Columns (2), (3) and (4), suggesting that innovative SMEs were more likely to be resilient and have the capacity to adapt to change. This finding is consistent with the argument that high innovation performance indicates a high level of dynamic capability (Eisenhardt and Martin, 2000; Duran et al., 2016).
The coefficients of NEEDAID are significant and negative in Columns (1), (2) and (4), indicating that the adverse impact of the pandemic on sales and cash flows severely obstructed SMEs’ resilience and significantly reduced the likelihood of their survival.
The coefficients of LNSALE are positive and significant in Columns (1) and (2), suggesting that larger firms were better able to develop new products or services and survive. The coefficient of LNAGE is positive and significant in Column (1), but negative and significant in Column (2), indicating that older SMEs had a better chance of surviving the pandemic but were not more resilient. The coefficient of EXPORT is significant and positive in Column (3), implying that exporting firms may be more resilient. The positive and significant coefficients of POLI in all the models suggest that political connections enhanced a firm’s capability to adjust its business models and survive. This finding is in line with that of Chit et al. (2022), who reported that political connectedness had a positive impact on the survival of European SMEs during the pandemic.
Table A3 [3] in the Online Appendix presents the estimation results of the structural equation model where government support serves as a mediator in the relationship between innovation and SMEs’ survival. Column (1) reports determinants of government support. The coefficient of NEEDAID is significant and positive, suggesting that government support reached the firms that required aid. This is consistent with the findings of Groenewegen et al. (2021) that the deadweight effect of government support was limited. The positive and significant coefficient of INNO supports hypothesis H2. Governments tended to support innovative firms when resolving the dilemma between public health and saving the economy (Patrucco et al., 2022; Azoulay and Jones, 2020). The coefficient of LNSALE is significant and positive, which is in line with previous evidence in past literature that government support went to viable firms to stimulate the economy after a crisis (Groenewegen et al., 2021; Cirera et al., 2021). The coefficients of POLI and EXPORT are also significant and positive, suggesting that firms with political connections and exports were more likely to be assisted by the government.
Column (2) reports the direct effects of the independent variables on firm survival, while Column (3) shows their indirect effects through the channel of government support. Column (4) reports the total effects. The indirect effect of INNO is significant and positive. This finding supports hypothesis H3 regarding the mediating role of government support in the relationship between innovation and survival.
The indirect effect of NEEDAID is significant and positive, whereas its direct effect is significant and negative. Thus, government support was effective in alleviating the challenges faced by SMEs during the pandemic. However, this support did not completely eliminate the impact of the pandemic as the total effect of NEEDAID remained negative and strongly significant. This may have been due to the number of inefficient firms exiting the market (Santarelli and Vivarelli, 2002).
Table A4 [3] in the Online Appendix reports the direct and indirect effects of the key factors on firm resilience during the pandemic. The direct effects of innovation (INNO) on the three resilience measures are positive and significant. This demonstrates the role of innovation in SMEs’ innovative capacity of SMEs. The indirect effects of INNO are all positive and significant. The direct effects of NEEDAID are negative and significant, except for ONLINE, suggesting that worsening sales, liquidity and cash flows hampered SMEs’ resilience during the pandemic. The indirect effects of NEEDAID are significant and positive for all measures of resilience, indicating that government support was effective and efficient in alleviating the pandemic’s negative impacts and helping firms adapt to new circumstances.
4.1 Endogeneity issue
As previously mentioned, INNO was measured in 2019, and the COVID-19 pandemic was exogenous shock; thus, reverse causality was unlikely. Nevertheless, government support is measured in the same period as firm resilience (NEWPROD, CARRYOUT, ONLINE) and thus could be a reverse causality. In other words, the government may have provided support to firms that showed more resilience during the pandemic.
We address this concern by adding a robustness test to a subsample, excluding firms that first reported receiving government support in survey rounds 2 or 3 and firms that first reported implementing resilience measures in survey round 1. In other words, this subsample includes (1) firms that reported receiving government support only in the first round, (2) firms that reported implementing resilience measures in the second and third rounds and, as a control group, (3) firms that did not receive government support and/or did not implement resilience measures. As firms in this subsample received government support only before implementing the resilience measures, reverse causality was unlikely.
We repeat our structural equation model using this subsample and report the results in Table A5 [3] of the Online Appendix. Consistent with the previous findings, in Panel A, the coefficient of INNO is significant and positive, indicating that government support tended to approach innovative firms. In Panel B, the indirect effects of INNO on firm survival and resilience are significant and positive, confirming the mediating role of government support in the relationships between innovation capability, firm survival and resilience.
5. Discussion and conclusions
This study is among the first to show the importance of government support to the resilience and survival of innovative SMEs during the COVID-19 pandemic. Although urgent government support helped firms relieve short-term pressure, innovative organizational culture and capabilities are decisive for firms in building resilience during crises (Kabir and Abubakar, 2022; Waehning et al., 2023). Consistent with Zahra et al. (2006), dynamic capabilities transform the substantive capabilities accumulated through innovation processes to help firms adapt quickly to changing customer behaviors and gain favor from the government. Government support enables innovative firms to exert their internal strength to overcome challenges and helps them achieve their macroeconomic goals.
Our findings also indicate that in times of crisis, a support program should target not only the firms that are most affected, but also viable firms that can quickly provide innovative solutions and adapt to the changing environment. The simplistic view that government support should only target firms that are most in need is plagued by the substitution effect. In other words, it may help firms survive short-term challenges, but will have repercussions afterward, as it distorts economic incentives and keeps inefficient firms alive, hampering market competition and creative destruction. A dual-goal policy of government support can be effective in alleviating short-term distress, but it can also boost recovery and be more sustainable with a view to the long-term efficiency.
The effect of government support on SMEs’ survival and resilience
| Variables | (1) | (2) | (3) | (4) |
|---|---|---|---|---|
| OPEN | NEWPROD | ONLINE | CARRYOUT | |
| GOVSPRT | 0.351*** | 0.351*** | 0.394*** | 0.430*** |
| (5.29) | (7.17) | (7.59) | (8.05) | |
| INNO | 0.0643 | 0.203*** | 0.206*** | 0.151*** |
| (0.99) | (3.60) | (3.64) | (2.98) | |
| NEEDAID | −0.943*** | −0.261*** | −0.0642 | −0.209*** |
| (−8.62) | (−4.19) | (−1.44) | (−3.97) | |
| LNSALE | 0.0903*** | 0.0341** | 0.0256 | 0.00701 |
| (4.18) | (1.96) | (1.64) | (0.51) | |
| LNAGE | 0.186*** | −0.0942** | 0.0454 | −0.0141 |
| (2.76) | (−2.14) | (0.98) | (−0.30) | |
| EXPORT | 0.000611 | −0.0139 | 0.0853** | −0.0915 |
| (0.01) | (−0.48) | (2.13) | (−1.37) | |
| POLI | 0.204** | 0.0855* | 0.0991* | 0.107** |
| (2.18) | (1.74) | (1.88) | (2.32) | |
| ASSO | −0.0605 | 0.0244 | −0.00694 | 0.0131 |
| (−0.59) | (0.55) | (−0.15) | (0.26) | |
| Constant | 1.922*** | −0.852*** | −1.529*** | −0.445** |
| (3.83) | (−3.60) | (−5.58) | (−2.02) | |
| Observations | 6,869 | 6,869 | 6,864 | 6,869 |
| Industry FE | YES | YES | YES | YES |
| Country FE | YES | YES | YES | YES |
| Clustered SE | Country | Country | Country | Country |
Note(s): z-statistics in parentheses. ***p < 0.01, **p < 0.05 and *p < 0.1
Source(s): Authors’ own work
Notes
Please see it on the Online Appendix
We collected exchange rates to convert sales from local currency to USD from https://www.xe.com
Conflicts of interest: There are no conflicts of interest associated with this research.
The supplementary material for this article can be found online.
References
Adam, N.A. and Alarifi, G. (2021), “Innovation practices for survival of small and medium enterprises (SMEs) in the COVID-19 times: the role of external support”, Journal of Innovation and Entrepreneurship, Vol. 10 No. 1, pp. 1-22, doi: 10.1186/s13731-021-00156-6.
Afcha, S. and García-Quevedo, J. (2016), “The impact of R&D subsidies on R&D employment composition”, Industrial and Corporate Change, Vol. 25 No. 6, pp. 955-975.
Azoulay, P. and Jones, B. (2020), “Beat COVID-19 through innovation”, Science, Vol. 368 No. 6491, p. 553, doi: 10.1126/science.abc5792.
Baghana, R. and Mohnen, P. (2009), “Effectiveness of R&D tax incentives in small and large enterprises in Québec”, Small Business Economics, Vol. 33 No. 1, pp. 91-107, doi: 10.1007/s11187-009-9180-z.
Bagozzi, R.P. (1977), “Structural equation models in experimental research”, Journal of Marketing Research, Vol. 14 No. 2, pp. 209-226, doi: 10.1177/002224377701400209.
Bagozzi, R.P. and Yi, Y. (1988), “On the evaluation of structural equation models”, Journal of the Academy of Marketing Science, Vol. 16 No. 1, pp. 74-94, doi: 10.1007/bf02723327.
Bentler, P.M. and Stein, J.A. (1992), “Structural equation models in medical research”, Statistical Methods in Medical Research, Vol. 1 No. 2, pp. 159-181, doi: 10.1177/096228029200100203.
Bond, S., Harhoff, D. and Van Reenen, J. (2005), “Investment, R&D and financial constraints in Britain and Germany”, Annales d'Economie et de Statistique, Nos 79/80, pp. 433-460, doi: 10.2307/20777584.
Cefis, E. and Marsili, O. (2019), “Good times, bad times: innovation and survival over the business cycle”, Industrial and Corporate Change, Vol. 28 No. 3, pp. 565-587, doi: 10.1093/icc/dty072.
Chen, X. and Wu, J. (2011), “Do different guanxi types affect capability building differently? A contingency view”, Industrial Marketing Management, Vol. 40 No. 4, pp. 581-592, doi: 10.1016/j.indmarman.2010.12.014.
Chit, M.M., Croucher, R. and Rizov, M. (2022), “Surviving the COVID‐19 pandemic: the antecedents of success among European SMEs”, European Management Review, Vol. 20 No. 1, pp. 113-127, doi: 10.1111/emre.12525.
Cirera, X., Cruz, M., Davies, E., Grover, A., Iacovone, L., Cordova, J.E.L., Medvedev, D., Maduko, F.O., Nayyar, G., Reyes Ortega, S. and Torres, J. (2021), “Policies to support businesses through the COVID-19 shock: a firm level perspective”, The World Bank Research Observer, Vol. 36 No. 1, pp. 41-66, doi: 10.1093/wbro/lkab001.
de Oliveira Teixeira, E. and Werther, W.B. Jr (2013), “Resilience: continuous renewal of competitive advantages”, Business Horizons, Vol. 56 No. 3, pp. 333-342, doi: 10.1016/j.bushor.2013.01.009.
Demmou, L., Franco, G., Calligaris, S. and Dlugosch, D. (2021), “Liquidity shortfalls during the COVID-19 outbreak: assessment and policy responses”, OECD paper.
Devereux, M.P., Güçeri, İ., Simmler, M. and Tam, E.H. (2020), “Discretionary fiscal responses to the COVID-19 pandemic”, Oxford Review of Economic Policy, Vol. 36 No. Supplement 1, pp. S225-S241, doi: 10.1093/oxrep/graa019.
Didier, T., Huneeus, F., Larrain, M. and Schmukler, S.L. (2021), “Financing firms in hibernation during the COVID-19 pandemic”, Journal of Financial Stability, Vol. 53, 100837, doi: 10.1016/j.jfs.2020.100837.
Doh, S. and Kim, B. (2014), “Government support for SME innovations in the regional industries: the case of government financial support program in South Korea”, Research Policy, Vol. 43 No. 9, pp. 1557-1569, doi: 10.1016/j.respol.2014.05.001.
Dörr, J.O., Licht, G. and Murmann, S. (2022), “Small firms and the COVID-19 insolvency gap”, Small Business Economics, Vol. 58 No. 2, pp. 887-917, doi: 10.1007/s11187-021-00514-4.
Du, J. and Girma, S. (2010), “Red capitalists: political connections and firm performance in China”, Kyklos, Vol. 63 No. 4, pp. 530-545, doi: 10.1111/j.1467-6435.2010.00486.x.
Duran, P., Kammerlander, N., Van Essen, M. and Zellweger, T. (2016), “Doing more with less: innovation input and output in family firms”, Academy of Management Journal, Vol. 59 No. 4, pp. 1224-1264, doi: 10.5465/amj.2014.0424.
Eisenhardt, K.M. and Martin, J.A. (2000), “Dynamic capabilities: what are they?”, Strategic Management Journal, Vol. 21 Nos 10‐11, pp. 1105-1121, doi: 10.1002/1097-0266(200010/11)21:10/11<1105::aid-smj133>3.0.co;2-e.
Esteve-Pérez, S. and Mañez-Castillejo, J.A. (2008), “The resource-based theory of the firm and firm survival”, Small Business Economics, Vol. 30 No. 3, pp. 231-249, doi: 10.1007/s11187-006-9011-4.
Groenewegen, J., Hardeman, S. and Stam, E. (2021), “Does COVID-19 state aid reach the right firms? COVID-19 state aid, turnover expectations, uncertainty and management practices”, Journal of Business Venturing Insights, Vol. 16, e00262, doi: 10.1016/j.jbvi.2021.e00262.
Haveman, H.A., Jia, N., Shi, J. and Wang, Y. (2017), “The dynamics of political embeddedness in China”, Administrative Science Quarterly, Vol. 62 No. 1, pp. 67-104, doi: 10.1177/0001839216657311.
Henseler, J. (2012), “Why generalized structured component analysis is not universally preferable to structural equation modeling”, Journal of the Academy of Marketing Science, Vol. 40 No. 3, pp. 402-413, doi: 10.1007/s11747-011-0298-6.
Hewitt-Dundas, N. and Roper, S. (2017), “Exploring market failures in open innovation”, International Small Business Journal, Vol. 36 No. 1, pp. 23-40, doi: 10.1177/0266242617696347.
Hillman, A.J., Withers, M.C. and Collins, B.J. (2009), “Resource dependence theory: a review”, Journal of Management, Vol. 35 No. 6, pp. 1404-1427, doi: 10.1177/0149206309343469.
Kabir, I. and Abubakar, Y.A. (2022), “Public policy responses to COVID-19 and the survival of ethnic minority businesses (EMBs): does entrepreneurial orientation (EO) matter?”, International Journal of Entrepreneurial Behavior and Research, Vol. 29 No. 3, pp. 561-586, doi: 10.1108/ijebr-05-2021-0429.
Kuckertz, A., Brändle, L., Gaudig, A., Hinderer, S., Reyes, C.A.M., Prochotta, A., Steinbrink, K.M. and Berger, E.S. (2020), “Startups in times of crisis–A rapid response to the COVID-19 pandemic”, Journal of Business Venturing Insights, Vol. 13, e00169, doi: 10.1016/j.jbvi.2020.e00169.
Kupek, E. (2006), “Beyond logistic regression: structural equations modelling for binary variables and its application to investigating unobserved confounders”, BMC Medical Research Methodology, Vol. 6 No. 1, pp. 1-10, doi: 10.1186/1471-2288-6-13.
Li, B., Zhong, Y., Zhang, T. and Hua, N. (2021), “Transcending the COVID-19 crisis: business resilience and innovation of the restaurant industry in China”, Journal of Hospitality and Tourism Management, Vol. 49, pp. 44-53, doi: 10.1016/j.jhtm.2021.08.024.
Marquis, C. and Qian, C. (2014), “Corporate social responsibility reporting in China: symbol or substance?”, Organization Science, Vol. 25 No. 1, pp. 127-148, doi: 10.1287/orsc.2013.0837.
Martí, J. and Quas, A. (2018), “A beacon in the night: government certification of SMEs towards banks”, Small Business Economics, Vol. 50 No. 2, pp. 397-413, doi: 10.1007/s11187-016-9828-4.
Ngo, T. and Susnjara, J. (2020), “Government contracts and US bond yield spreads: a study on costs and benefits of materialized political connections”, Journal of Business Finance and Accounting, Vol. 47 Nos 7-8, pp. 1059-1085, doi: 10.1111/jbfa.12440.
Nguyen, H.T., Nguyen, T.T., Dang, X.L.P. and Nguyen, H.M. (2022a), “Informal financing choice in SMEs: do the types of formal credit constraints matter?”, Journal of Small Business and Entrepreneurship, Vol. 34 No. 3, pp. 313-332, doi: 10.1080/08276331.2019.1692441.
Nguyen, H.T., Vu, T.T.D., Nguyen, H.M. and Nguyen, T.H.M. (2022b), “Hợp đồng nhà thầu với chính phủ và khả năng tồn tại của doanh nghiệp trong đại dịch COVID-19”, Tạp chí nghiên cứu Kinh tế và Kinh doanh Châu Á, Vol. 33 No. 11, pp. 107-122.
Nguyen, H.T., Vu, T.T.D., Nguyen, H.M. and Troege, M. (2022c), “Political embeddedness and the adoption of environmental management practices: the mediating effects of institutional pressures”, Corporate Social Responsibility and Environmental Management, Vol. 29 No. 4, pp. 965-983, doi: 10.1002/csr.2248.
North, D., Smallbone, D. and Vickers, I. (2001), “Public sector support for innovating SMEs”, Small Business Economics, Vol. 16 No. 4, pp. 303-317, doi: 10.1023/a:1011164801073.
Nunes, S. and Lopes, R. (2015), “Firm performance, innovation modes and territorial embeddedness”, European Planning Studies, Vol. 23 No. 9, pp. 1796-1826, doi: 10.1080/09654313.2015.1021666.
OECD (2020), “The impact of COVID-19 on SME financing: a special edition of the OECD financing SMEs and entrepreneurs scoreboard”, OECD SME and Entrepreneurship Papers, No. 22, OECD Publishing, Paris, doi: 10.1787/ecd81a65-en.
Patrucco, A.S., Trabucchi, D., Frattini, F. and Lynch, J. (2022), “The impact of Covid‐19 on innovation policies promoting Open Innovation”, R&D Management, Vol. 52 No. 2, pp. 273-293, doi: 10.1111/radm.12495.
Pederzoli, C., Thoma, G. and Torricelli, C. (2013), “Modelling credit risk for innovative SMEs: the role of innovation measures”, Journal of Financial Services Research, Vol. 44 No. 1, pp. 111-129, doi: 10.1007/s10693-012-0152-0.
Peng, M.W., Bruton, G.D., Stan, C.V. and Huang, Y. (2016), “Theories of the (state-owned) firm”, Asia Pacific Journal of Management, Vol. 33 No. 2, pp. 293-317, doi: 10.1007/s10490-016-9462-3.
Pfeffer, J. and Salancik, G.R. (2003), The External Control of Organizations: A Resource Dependence Perspective, Stanford University Press, Stanford, California.
Ratten, V. (2020), “Coronavirus and international business: an entrepreneurial ecosystem perspective”, Thunderbird International Business Review, Vol. 62 No. 5, pp. 629-634, doi: 10.1002/tie.22161.
Santarelli, E. and Vivarelli, M. (2002), “Is subsidizing entry an optimal policy?”, Industrial and Corporate Change, Vol. 11 No. 1, pp. 39-52, doi: 10.1093/icc/11.1.39.
Shafi, M., Liu, J. and Ren, W. (2020), “Impact of COVID-19 pandemic on micro, small, and medium-sized enterprises operating in Pakistan”, Research in Globalization, Vol. 2, 100018, doi: 10.1016/j.resglo.2020.100018.
Sheppard, J.P. (1995), “A resource dependence approach to organizational failure”, Social Science Research, Vol. 24 No. 1, pp. 28-62, doi: 10.1006/ssre.1995.1002.
Shook, C.L., Ketchen, D.J. Jr, Hult, G.T.M. and Kacmar, K.M. (2004), “An assessment of the use of structural equation modeling in strategic management research”, Strategic Management Journal, Vol. 25 No. 4, pp. 397-404, doi: 10.1002/smj.385.
Thorgren, S. and Williams, T.A. (2020), “Staying alive during an unfolding crisis: how SMEs ward off impending disaster”, Journal of Business Venturing Insights, Vol. 14, e00187, doi: 10.1016/j.jbvi.2020.e00187.
Thukral, E. (2021), “COVID‐19: small and medium enterprises challenges and responses with creativity, innovation, and entrepreneurship”, Strategic Change, Vol. 30 No. 2, pp. 153-158, doi: 10.1002/jsc.2399.
Waehning, N., Bosworth, G., Cabras, I., Shakina, E. and Sohns, F. (2023), “Resilient SMEs and entrepreneurs: evidence from the UK craft brewing sector”, International Journal of Entrepreneurial Behavior and Research, Vol. 29 No. 3, pp. 665-686, doi: 10.1108/ijebr-06-2021-0496.
Wenzel, M., Stanske, S. and Lieberman, M.B. (2020), “Strategic responses to crisis”, Strategic Management Journal, Vol. 41, pp. 7-18.
Wu, J. and Chen, X. (2012), “Leaders' social ties, knowledge acquisition capability and firm competitive advantage”, Asia Pacific Journal of Management, Vol. 29 No. 2, pp. 331-350, doi: 10.1007/s10490-011-9278-0.
Zahra, S.A., Sapienza, H.J. and Davidsson, P. (2006), “Entrepreneurship and dynamic capabilities: a review, model and research agenda”, Journal of Management Studies, Vol. 43 No. 4, pp. 917-955, doi: 10.1111/j.1467-6486.2006.00616.x.
Acknowledgements
We would like to thank discussants at VIID 2022 Conference, and seminar participants at Foreign Trade University of Vietnam for their valuable comments and suggestions. This research is funded by Foreign Trade University under research program number FTURP01-2020-04.