THE ROLE OF ABSORPTIVE CAPACITY, GREEN DYNAMIC CAPABILITY, AND GREEN MANUFACTURING PRACTICES ON GREEN INNOVATION PERFORMANCE IN MANUFACTURING COMPANIES BY
Environmental issues such as scarcity of natural resources, global warming, pollution, and waste management have become the world's attention, including the industrial world. Manufacturing companies that generally consume large amounts of natural resources must be able to respond to these en...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/74678 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Environmental issues such as scarcity of natural resources, global warming,
pollution, and waste management have become the world's attention, including the
industrial world. Manufacturing companies that generally consume large amounts
of natural resources must be able to respond to these environmental issues. One
way to respond to these issues is to implement green manufacturing. Companies
need to change the products produced and the processes carried out to implement
green manufacturing. The green implementation also requires a change in
perspective and commitment from all parts of the company to pay attention to
environmental aspects in every activity. These changes require innovation in
products, processes, or management to make them more environmentally friendly.
Green innovations are called innovations that consider environmental aspects and
aim to reduce negative environmental impacts.
From studies that discuss green innovation, a company's ability to absorb
knowledge from the external environment, the ability to share knowledge, and the
company's dynamic capabilities are factors that influence green innovation
performance in different ways. These factors are considered relevant for
manufacturing companies in Indonesia which tend to need to be faster in
responding to environmental issues. This research produces a model that describes
the role of dynamic capabilities, knowledge-sharing capabilities, absorptive
capacity, and green manufacturing practices in green innovation performance in
manufacturing companies. This research differs from earlier similar studies in
describing green dynamic capability into three different but interrelated
capabilities (sensing, seizing, and reconfiguring capability). In addition, the
research model also describes green manufacturing practices as one of the
variables influencing green innovation performance. Therefore, this research is
considered to provide a more complete explanation compared to previous studies
in the area of green innovation, especially research that examines green innovation
from the perspective of a company's dynamic capabilities.
This research was conducted in 3 (three) stages, namely (1) designing a research
plan; (2) model development and model testing; and (3) analysis, synthesis, and
conclusion of the research. The survey strategy is used at the model testing stage,
while case studies are used at the analysis stage. The survey was conducted to
determine how knowledge-sharing capabilities, absorptive capacity, green
dynamic capability, and green manufacturing practices influence green innovation
performance. Case studies are conducted to explain how the relationship between
variables in the model occurs in the company. This study uses the PLS-SEM method
for processing survey data.
The research model that has been tested quantitatively shows that green dynamic
capability directly affects green innovation performance.The three capabilities that
describe green dynamic capability (sensing, seizing, and reconfiguring capability)
show sequential linkages. Sensing capability positively affects seizing capability,
and seizing capability affects reconfiguring capability. Therefore, what directly
influences green innovation performance is reconfiguring capability. Knowledge-
sharing capability affects absorptive capacity. Absorptive capacity does not
directly affect green innovation performance but must be mediated by green
dynamic capability or manufacturing practices. Green manufacturing practices
have a positive and direct effect on green innovation performance. The results of
testing the research model also show that the model is moderately able to explain
green innovation performance. The research model that has been tested
quantitatively is also confirmed and explained more fully by the results of case
studies. Thus, the variables discussed in the research model can explain green
innovation performance. Practically, this research also provides benefits for
manufacturing companies in Indonesia to determine the stages and aspects that
must be considered to develop green innovation performance.
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