Construction Economics and Building, 16(4), 54-67 

Copyright: Construction Economics and Building 2016. © 2016 Eziyi Offia Ibem, Egidario Bridget Aduwo, Patience Tunji-Olayeni, 
Emmanuel Adekunle Ayo-Vaughan and Uwakonye Obioha Uwakonye. This is an Open Access article distributed under the terms of 
the Creative Commons Attribution 4.0 Unported (CC BY 4.0) License (https://creativecommons.org/licenses/by/4.0/), allowing 
third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material for 
any purpose, even commercially, provided the original work is properly cited and states its license.  

Citation: Ibem, E.O., Aduwo, E.B., Tunji-Olayeni, P., Ayo-Vaughan, E.A. and Uwakonye, U.O. 2016. Factors influencing e-
Procurement adoption in the Nigerian building industry. Construction Economics and Building, 16(4), 54-67. DOI: 
http://dx.doi.org/10.5130/AJCEB.v16i4.4984 

Corresponding author: Eziyi Offia Ibem; Email - ibem.eziyi@covenantuniversity.edu.ng 

Publisher: University of Technology Sydney (UTS) ePress 

Factors influencing e-Procurement adoption in the Nigerian 
building industry 
Eziyi Offia Ibem1, Egidario Bridget Aduwo1, Patience Tunji-Olayeni1, Emmanuel Adekunle 
Ayo-Vaughan2 and Uwakonye Obioha Uwakonye1  
1Covenant University, Ota, Nigeria 
2Bells University of Technology, Ota, Nigeria 

Abstract 
Against the backdrop of increasing adoption of e-Procurement in supply chain management, there is 
a need for adequate knowledge of the factors that influence the decision by organizations in the 
building industry to use e-Procurement. This study aims to fill the knowledge gap through 
investigating the factors influencing e-Procurement adoption based on the data sourced in a 
questionnaire survey involving 213 organizations in the building industry. The survey was conducted 
between June and November 2015 in Nigeria. Descriptive statistics, factor and categorical regression 
analyses were used to analyze the data. The results show that the three most important factors 
influencing the adoption of e-Procurement amongst the participants, in order of importance, were: 
the benefits of e-Procurement in enhancing efficiency in project delivery; eliminating geographic 
barriers and effective communication among project team members. The 29 factors were 
investigated in seven different dimensions - the benefits of e-Procurement use; level of awareness on 
e-Procurement in construction; and the availability and cost of e-Procurement applications emerged 
as the three most significant predictors of e-Procurement adoption in the survey. The study 
concludes by identifying strategies that should be engaged in increasing the uptake and maximizing 
the benefits of e-Procurement in the Nigerian building industry.    

Keywords: e-Procurement, the building industry, innovation adoption, Nigeria. 

Paper type: Research article 

Introduction 
Since the advent of the Internet in the 1990s, the use of Internet-supported information and 
communication technologies (ICTs) by construction firms to manage intra and inter-firm activities 
has been on the increase. However, one aspect of this development that has shown great potential 
for improving the performance of the construction industry is the use of electronic communications 
and transaction processes when buying supplies and services or conducting tendering for works, 
which is referred to as electronic (e-) Procurement (Bausa et al., 2013).  

According to Williams and Hardy (2005), the adoption of ICTs in construction is a form of 
technological innovation. Consequently, authors (Zou and Seo, 2006; Laryea and Ibem, 2014) have 
described e-Procurement in construction as innovation adoption. The existing published works have 
explored the use of e-Procurement in construction in several countries, including the USA (Issa et 

https://creativecommons.org/licenses/by/4.0/
http://dx.doi.org/10.5130/AJCEB.v16i4.4984


Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 54 
 

al., 2003), Canada (Rankin et al., 2006), Australia (Zuo and Seo, 2006), the UK (Eadie et al., 2007; 
2010; 2011), Nigeria (Oyediran and Akintola, 2011) and South Africa (Ibem and Laryea, 2015). 
Others have examined the strategic, opportunistic and operational benefits (Eadie et al., 2007; 2010; 
Farzin and Nezhad, 2010), barriers (Eadie et al., 2007; 2010; Isikdag et al., 2011; Aduwo et al., 2016) 
of e-Procurement and the factors influencing its adoption in supply chain management (Teo et al., 
2009; Daud et al., 2013). Hashim et al. (2014:231), however, noted that e-Procurement in 
construction was not widespread, and that there has been limited research into the factors affecting 
its adoption in this industry. Ibem and Laryea (2015) have observed that this is particularly evident in 
African countries where e-Procurement adoption in construction related areas appears to be at its 
nascent stage.  

It was against this background that the current study investigated the factors influencing e-
Procurement adoption in the Nigerian building industry (NBI). The objectives were to: 

• identify the key factors considered important in the decision by organizations in the NBI to 
adopt e-Procurement; 

• investigate the dimensions of the factors that influenced the decision by organizations in the 
NBI to adopt e-Procurement; and 

• identify the factors that contribute the most to explaining the actual use of e-Procurement by 
organizations in the NBI. 

This study relied on empirical data derived from a questionnaire survey of architectural, building 
construction and quantity surveying firms, client organizations and government agencies in the NBI 
to achieve these objectives. The study contributes to knowledge by identifying the factors 
considered important in the decision to use e-Procurement by organizations in the NBI. It also 
extends knowledge on which of these factors contribute the most to explaining actual use of e-
Procurement in construction; and thus it is a valuable contribution to the current discourse on e-
Procurement in construction from the Nigerian perspective.  

Review of literature 
The review of literature covers two main areas. First, is the presentation of the underpinning 
theoretical framework of this study; and second, is the review of previous studies on the factors 
influencing e-Procurement adoption in construction. 

Theoretical background  

The adoption of a new idea, process, product or service (i.e. innovation) has been explained from 
diverse perspectives in the literature. For example, Klein et al. (2001:811) described adoption as a 
decision to use an innovation within the organization, while Rogers (2003) defined adoption as a 
decision to make full use of an innovation (p.177). Rogers also made it clear that the decision to 
adopt an innovation consists of five phases of awareness, interest, evaluation, trial and adoption 
(Rogers, 2003). Further, Woodside and Biemans (2005:384-385) described adoption as “the 
decision-making process of an individual unit of adoption to use a product or service. Therefore, in 
this study, e-Procurement adoption refers to the actual use of web-based technologies, tools or 
processes to support the execution of some or all aspects of construction procurement activities.    

In the research literature, a number of theories have been engaged in studies on the adoption of new 
technologies. Some of these theories include: the diffusion of innovation (DOI) theory by Everett 
M. Rogers in 1962; the technology, organization and environment (TOE) framework by Tornatzky 
and Fleischer (1990); the technology acceptance model (TAM); theory of reasoned action (TRA) and 
unified theory of acceptance and use of technology (UTAUT)(Tran et al, 2011). However, Oliveira 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 55 
 

and Martins (2011) noted that whereas the DOI and TOE framework are relevant in the study of 
technology adoption at the firm’s (organizational) level, the TAM, TRA and UTAUT are useful in 
studies that explore innovation adoption by individuals. Since the focus of the current research is on 
e-Procurement adoption by organizations, the DOI theory and TOE framework are considered to 
be relevant in this study.  

Roger’s DOI theory posits that among other factors, the attributes of an innovation influence its 
diffusion and adoption (Rogers, 2003). He identified these attributes to include: i) relative advantage 
(the extent to which the innovation is viewed to be better than the existing idea, practice, knowledge 
or tool by users; i.e. perceived cost and benefits); ii) compatibility (the degree to which an innovation 
is consistent with the existing practice, experience, norms, needs and value system of the potential 
adopters); iii) complexity (the degree to which an innovation is perceived as difficult to understand 
and use); iv) trialability (the degree to which an innovation may be experimented with on a limited 
basis); and v) observability (the degree to which the results of adoption of innovation are visible to 
others) (Rogers, 2003). Although Rogers (2003) was of the view that these attributes account for 
between 49% and 87% of variation in the adoption of innovation, Ibem and Laryea (2015) noted 
that the three attributes consistently found to be relevant to innovation adoption are relative 
advantage, compatibility and complexity. Mustonen-Ollila and Lyytinen (2003) explained that the 
factors identified by Rogers are perception measures that represent independent variables used in 
exploring the likelihood and propensity to, or actual adoption of, an innovation as the dependent 
variable.  

Although Roger’s DOI theory has been applied in ICT diffusion and adoption studies in 
construction (see Songip et al., 2013; Daud et al, 2013; Ibem and Laryea, 2015 for examples), it has  
been criticized for not considering the influence of market and industry characteristics on adoption 
decisions by firms. Consequently, the TOE model developed by Tornatzky and Fleischer in 1990 
seeks to address the inadequacies of the Roger’s DOI theory (Teo et al., 2009; Oliveira and Martins; 
2011). The TOE model contends that technological, organizational and environmental factors 
largely influence innovation adoption (Tornatzky and Fleischer, 1990). Oliveira and Martins (2011) 
explained that technological factors are concerned with the existing and emerging technologies and 
may include current practices, equipment and technologies within and outside the organizations. The 
organizational factors are mainly management structure, organizational size, scope of activities 
resource base and others (Azadegan and Teich, 2010), while the environmental factors are the 
influence of industry characteristics, competitors, government and other institutions that have 
influence on the adopting unit (Azadegan and Teich, 2010; Oliveira and Martins, 2011).  

Compared to the manufacturing, transportation, retailing and other service industries, who are early 
adopters of e-Procurement (Teo et al., 2009), the construction industry is generally regarded as a late 
adopter of e-Procurement (Eadie et al., 2007; 2010; Laryea and Ibem, 2014). However, existing 
theories and conceptual frameworks do not appear to have considered the influence of early 
adopters of e-Procurement on the late adopters. Therefore, this study sought to include the external 
influence of other industries on the adoption of e-Procurement technologies and tools by 
organizations in the NBI. 

Factors influencing e-Procurement adoption in construction: a review of studies  

In the construction sector, a number of studies have attempted to explore the factors influencing an 
organizations’ decision to adopt e-Procurement. For example, Rankin et al. (2006) found that the 
decision to adopt e-Procurement by 226 organizations in the Atlantic Canadian AEC  industry was 
influenced by the perceived benefits of e-Procurement in gaining access to a larger market and 
increased opportunities; reduction in paperwork; increased productivity; and reduction in the 
procurement cycle time and transaction cost. Teo et al. (2009) also found that firm size, top 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 56 
 

management support, perceived indirect benefits, and business partners influenced the adoption of 
e-Procurement in 141 Architecture/Engineering/Construction firms in Singapore. In the UK, 
Eadie, et al. (2011) observed that in public and private sector organizations, there was a correlation 
between the size, procurement spending and sector an organization belonged to and e-Procurement 
use. The authors found that the perceived benefits in time and cost savings, increased quality, 
visibility in the supply chain, efficiency, and effective communication associated with e-Procurement 
were the key factors that influenced e-Procurement use. Other factors identified in that study were 
improved inventory management, elimination of errors and convenience of archiving of completed 
work.  

Elsewhere in Malaysia, Daud et al. (2013) revealed that the key factors that influenced e-Procurement 
adoption among 178 contractors were perceived usefulness of e-Procurement technologies in 
handling procurement work, and the complexity of e-Procurement technologies. Similarly, Tran and 
Huang (2014) noted that the adoption of e-Procurement in developing countries was influenced by 
technological, organizational, environmental, and managerial factors.  Ibem and Laryea (2015) also 
found that the speed of transactions, lower transaction cost and ease of use of the technologies had 
the highest positive impact on e- Procurement use in the South African construction industry.  

It is evident from this that the attributes of e-Procurement technologies, organizational 
characteristics and the operating environment are amongst the factors that can influence the 
decision to adopt e-Procurement by organizations. It was also observed that none of the existing 
studies explored the influence of other industries on the adoption of e-Procurement in the 
construction sector. Therefore, there is a need to explore this further, particularly in a developing 
country like Nigeria where the literature on e-Procurement in construction is very thin. 

A conceptual framework of this study was developed based on the findings of the literature review. 
The framework (Figure 1) proposes that the factors that influence the decision by organizations in 
the NBI to use e-Procurement are: (i) the attributes of e-Procurement technologies; (ii) 
organizational factors; (iii) environmental factors; and (iv) the influence of other industries. 
Therefore, in this study, the key assumption is that the decision to use e-Procurement by 
organizations in the NBI is a product of the attributes of e-Procurement technologies, 
organizational, and environment factors, as well as the influence of other industries described as 
early adopters of e-Procurement. 

 

 
Figure 1: Conceptual framework of the study 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 57 
 

Research method 
This study is part of a research project designed to investigate the extent of e-Procurement use in 
the NBI. A quantitative research approach involving a questionnaire survey was the primary data 
collection strategy used. Several studies (Rankin et al., 2006; Eadie et al., 2007; 2011; Ibem and 
Laryea, 2015; Aduwo et al., 2016) used a similar approach. The advantages of this approach include 
its cost effectiveness, wider coverage, and anonymity (see Bulmer, 2004 and Bird, 2009). 

The researchers designed the questionnaire based on findings from the review of literature. Section 1 
of the questionnaire comprised questions on the professional roles of the participants and their 
organizations. Section 2 included questions on their level of awareness, duration and extent of e-
Procurement use. In gathering data on the length of use, the participants in this research who 
indicated that they have used e-Procurement were asked to identify how long they have been using it 
based on the following options 1= less than one year; 2= (1-years); 3= (6-10) years; 4= Over 10 years.  
Section 3 contained questions on the factors influencing the decision by their organizations to adopt 
e-Procurement. In Section 3, the participants were asked to rate 29 factors identified from the 
review of literature in the order of their importance in influencing their decision to use e-
Procurement  based on a 5-Likert type scale, where 1= “Not Important”; 2= “Least Important”; 3= 
“Undecided”; 4= “Important”; and 5= “Most Important”. Table 2 presents the list of factors investigated 
in this research.  

Prior to the main survey, the researchers carried out a pilot survey in Lagos in April 2015. In the 
pilot survey, the researchers sent a copy of the questionnaire to 30 purposively selected architectural, 
and quantity surveying firms, as well as client organizations. Of the 30 surveys sent 12 responded, a 
40% response rate. Feedback from the pilot survey resulted in the adjustment of some of the 
questions used in the main survey. The reliability of the scale of measurement used in the 
questionnaire was examined using Cronbach’s alpha coefficient test conducted on all 29 of the 
variables used. The result showed Cronbach’s alpha value of 0.851, which is more than 0.7 
recommended by Pallant (2011), suggesting that the questionnaire instrument is reliable. 

The main survey took place between June and November 2015. The target population was 
architectural, building and quantity surveying firms in the NBI. The survey of architectural firms 
took place in June 2015 during the 2015 Architects’ Colloquium in Abuja. The survey of building 
construction firms took place at the Annual Builders’ National Conference and Meeting at the 
University of Ibadan in August 2015, while data was extracted from the Quantity Surveying firms at 
the Annual QS Research Conference held at the Federal University of Technology, Akure in 
November 2015. Participants in the research were randomly selected and the questionnaire 
administered to them by the researchers and some trained research assistants. In addition, client 
organizations, including government ministries/parastatals and multinationals (e.g. oil and gas, 
telecommunication, manufacturing and building construction companies) in Lagos, Abuja and Port 
Harcourt participated in the research. To ensure that only one respondent from an organization was 
included in the survey, the respondents were asked to indicate the names of the organizations. 

Of the 500 questionnaires distributed, 213 valid questionnaires were returned, representing around 
43% response rate. Previous studies (Rankin et al., 2006; Daud et al., 2013) had reported similar 
response rates. The data was analysed with the help of Statistical Package of the Social Sciences 
(SPSS) Version 20. Three main types of analyses were conducted. The first analysis was descriptive 
statistics. The mean scores for each of the 29 factors influencing the adoption e-Procurement as 
provided by the respondents who indicated that they have used e-Procurement were also computed. 
The second analysis was exploratory factor analysis using principal component analysis and Varimax 
rotation method. This analysis was used to address the second objective of the study. It is 
noteworthy that only responses from those who indicated that they have used e-Procurement were 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 58 
 

included in this analysis. The authors also used it to extract the factors used in the regression 
analysis. The third analysis conducted was the Categorical Regression Analysis with optimal scaling 
technique also known as CATREG in SPSS. This analysis was used to examine the variance 
explained by R2, identify and compare the relative strength of the factors predicting the adoption of 
e-Procurement among the respondents who have used e-Procurement. CATREG analysis was used 
in this study as the survey data included combinations of ordinal and numerical/interval variables. 
Hussain et al. (2006) have identified the benefits of CATREG analysis over standard regression in 
the analysis of dataset comprising both ordinal and numerical/interval variables. In executing the 
CATREG, the responses on how long the participants have used e-Procurement formed the 
dependent variable, while the factor scores for Factors(1-7) extracted from the exploratory factor 
analysis; the level of awareness on e-Procurement in construction; type and age of organizations; and 
sector of procurement experience by the organizations were the independent variables. This is 
consistent with the submission by Mustonen-Ollila and Lyytinen (2003) as previously highlighted.  

Study findings 

Profiles of the participants and their organizations 

Table 1 shows the professional roles of the respondents in the research and profiles of their 
organizations. It is evident from Table 1 that around one-third of the respondents were architects 
and most of those sampled worked in consulting firms and government-owned organizations. The 
results also revealed that a high majority of the organizations were more than ten years old and 
consisted of more than 20 members of staff. Based on this result it is fair to assume that the key 
stakeholders in the NBI participated in the survey; suggesting that the findings of this research can 
be generalized in the context of the NBI. 

Level of awareness and extent of e-Procurement use 

The data collected regarding participants’ levels of awareness of e-Procurement in construction 
shows that about 160 (75.1%) of them were aware, while 47 (22.1%) were not aware of e-
Procurement in construction, with 6 (2.8%) participants not responding.  The result also reveals that 
a majority 129 (52%) of the participants had not participated in projects involving the use of e-
Procurement, while 84 (39.4%) of the respondents stated that they have, and around 9% of the 
participants provided no response. Since the current research is on the factors influencing e-
Procurement adoption, only data provided by those (84 respondents) who indicated that their 
organizations have participated in projects involving the use of e-Procurement are presented in the 
subsequent sections of this paper. This is to ensure that the views expressed by those who have not 
used e-Procurement, while a useful indicator of the perception of e-Procurement, are excluded from 
the result presented due to their hypothetical, rather than experience based, nature. 

Figure 2 shows the professional roles of the 84 respondents who have participated in building 
projects involving the use of e-Procurement. It is evident from this result that the highest percentage 
of those using e-Procurement are quantity surveyors, followed by architects, builders and others. 
The data indicates that the majority (61%) have been using it for between 1 and 5 years, 23% below 
1 year, 14.3% have been using e-Procurement for between 6 to 10 years, while 2.4% have used it for 
over 10 years.  
 

 

 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 59 
 

Table 1: Professional Roles of the Respondents and Profiles of their Organizations 
Role/ Duty/ Profession Frequency Percentage 

Role in the Building Industry   
Architect 75 35.2 
Builder 47 22.1 
Engineer 9 4.2 
Construction/ Project manager 20 9.4 
Quantity Surveyor (QS) 56 26.3 
Procurement/Supply chain manager 6 1.9 
Type of Organization   
Consulting firms 72 33.8 
Contractors 45 21.1 
Client organizations 21 9.9 
Government Ministry/ Parastatals 75 35.2 
Sector of Procurement experience   
Public sector only 36 16.9 
Private sector only 52 24.4 
Both public and private 125 58.7 
Staff Strength (Persons)   
Below 20  94 44.1 
20-50  45 21.1 
51-100  14 6.6 
More than 100 56 26.3 
No response 4 1.9 
Age of Organization   
Below 5 years 31 14.6 
6-10 years 52 24.4 
More than 10 years  126 59.2 
No response 4 1.9 
Number of Offices in Nigeria   
One 84 39.4 
Two 52 24.4 
Three 17 8.0 
More than three 42 19.7 
No response 18 8.5 
Range of annual turnover in Naira (1$US=N314.62)   
Less than 100 million 91 42.7 
100-500 million 40 18.8 
600 million-1 billion 17 8.0 
Over 1 billion 42 19.7 
No response 23 10.8 

 
Figure 2: Professional background of the users of e-Procurement 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 60 
 

Factors influencing e-Procurement use  

The 84 respondents who are users of e-Procurement were also asked to rate the factors that 
influenced their decision to adopt e-Procurement. The results displayed in Table 2 show that the 
factors with mean values of 4.00 and above are considered to be of the highest influence, those with 
mean values of between 3.50 and 3.99 are of moderate influence, while the factors with mean values 
of less than 3.50 are considered to be least influential.  

The results in Table 2 show that the three factors with the highest influence on the decision to adopt 
e-Procurement by the organizations of the 84 respondents were the benefits of e-Procurement in 
enhancing efficiency in job delivery, eliminating geographic barriers to participation in construction 
procurement activities and effective communication among project team members. On the other 
hand, factors with the least influence on the decision to adopt e-Procurement were what early users 
said about e-Procurement and the result of the initial attempt at e-Procurement use in their 
organizations. 
 

Table 2: Descriptive statistics of factors influencing e-Procurement use 

Factors Mean Std. Dev. 
Benefits of enhanced level of efficiency in job delivery 4.73 5.94 
Benefits of elimination of geographic barriers in procurement 4.59 4.87 
Benefits of effective communication between project team members 4.20 0.81 
Availability of IT manpower in my organization 4.14 0.89 
Benefits of good inventory management and record keeping 4.13 0.80 
The need to align with global trends in e-Procurement use in other industries 4.13 1.10 
Reduction in errors associated with paper-based methods 4.08 0.82 
Easier coordination of procurement activities 4.04 0.92 
Reduction in time spent on procurement process 3.99 1.06 
Less paper work  3.99 0.99 
Cost of acquiring and operating the package 3.97 1.15 
Efficiency of collaboration amongst project team 3.97 0.92 
Availability of e-Procurement packages 3.93 1.07 
Less labour intensive feature of e-Procurement 3.90 0.92 
Decision by our clients/service providers to use e-Procurement 3.90 0.99 
Perceived benefits associated with reduction in the procurement cost 3.89 1.03 
Compatibility of e-Procurement with our existing procurement process 3.85 0.95 
Benefit of competitiveness inherent in e-Procurement 3.82 0.95 
Increase in profit margin associated with e-Procurement 3.80 1.00 
Visibility of our business inherent in e-Procurement 3.77 1.04 
Financial base of my organization 3.73 1.21 
Size of my organization 3.71 1.14 
The extent to which e-procurement technology and tools are easy to use 3.69 1.10 
Level of business activities in the construction industry in the country 3.48 1.06 
Number of existing users amongst business partners 3.45 1.14 
Geographical spread of the business activities of my organization 3.42 1.15 
What early users said about e-Procurement technologies and tools 3.42 1.24 
Result of the initial attempt at e-Procurement use in my organization 3.25 1.26 

Dimensions of the factors influencing e-Procurement use 

Exploratory factor analysis was used to investigate the dimensions of factors that influenced the 
organizations’ decision to use e-Procurement.  In order to ascertain that the data set was suitable for 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 61 
 

factor analysis, Kaiser-Meyer-Olkin Measure of Sampling Adequacy (KMO) and the Bartlett’s Test 
of Sphericity were conducted. The result showed the KMO value of 0.740 and Bartlett’s test, 
p=0.000. These values are more than 0.6 for KMO and 0.05 for Bartlett’s test as recommended by 
Pallant (2011), suggesting that the survey data is suitable factor analysis.  

Table 3 shows the result of the exploratory factor analysis of the 29 factors influencing e-
Procurement use as perceived by the 84 respondents. It is evident from the results that seven 
dimensions of the factors that influenced the decision to adopt e-Procurement explained around 
78% of the total variance in the 29 factors investigated.  
 

Table 3: Dimensions of factors influencing e-Procurement use 
Dimensions of Evaluation Factor 

Loading 
Eigenvalue Percentage of 

Variance 
Percentage 
Cumulative 

Factor 1: Benefits of e-Procurem ent use  6.990 24.103 24.103 

Result of the initial attempt to e-procurement in my 
organization 

.458    

The increase in profit margin associated with e- 
procurement 

        .510    

Reduction in errors associated with paper-based methods        .558    

Reduction in the procurement cost .552    

Reduction in time spent on procurement process .527    

Enhanced level of efficiency in job delivery .601    

Involvement of less paper work in e-Procurement .582    

Less labour intensive feature of e-Procurement .733    

Effective communication between project team members .637    

The potential of e-procurement to improve efficiency of 
collaboration amongst project team 

.534    

The benefit of good inventory management and record 
keeping 

.554    

Easier coordination of procurement activities .725    

Visibility of our business inherent in e-procurement .567    

Elimination of geographic barriers in the procurement 
process 

.594    

Factor 2: Construction industry-related factors   4.985 17.190    41.293   
Compatibility of e-procurement with the existing 
construction procurement process 

.748    

Decision by our clients/service providers to use e-
Procurement 

.632    

What early users said about e-Procurement technologies 
and tools 

.679    

Scope of operational activities of my organization .630    
The number of existing users amongst my business 
partners 

.557    

The level of business activities in the construction 
industry in the country 

.553    

Factor 3: Org anizational characteristics  3.327 11.474 52.767 
The geographical spread of the business activities of my 
organization 

.744    

Financial base of my organization .620    
Availability of IT manpower in my organization .646    



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 62 
 

Dimensions of Evaluation Factor 
Loading 

Eigenvalue Percentage of 
Variance 

Percentage 
Cumulative 

Factor 4: The com plexity and need to alig n with 
g lobal trend in the use of e-procurem ent 
technolog ies 

 2.183 7.529      60.296 

Extent to which e-procurement technologies and tools 
are easy to use 

.509    

The need to align with global trends in e- procurement 
use 

.595    

Factor 5: Availability and cost of e-Procurem ent 
Applications 

 1.993 6.872 67.168 

Availability of e-Procurement packages .502    
The cost of acquiring and operating the package .607    
Factor 6: The Size of  Org anization .616 1.767 6.092        73.260 
Factor 7: Benefits of Com petitiveness inherent in e-
Procurem ent 

.496 1.303 4.493 77.753 

        78% of the total variance        

Examination of the result in Table 3 reveals that the first dimension explaining around 24% of the 
variance in the 29 factors investigated is related to the benefits of e-Procurement technologies and 
tools (Factor 1). Next is the construction industry related factors (Factor 2), explaining 17.2% of the 
variance in the factors investigated; and organizational characteristics (Factor 3), explaining around 
12% of the variance in all the factors examined. Others are the complexity and need to align with 
the global trend in the use of e-Procurement technologies (Factor 4); the availability and cost of e-
Procurement technologies (Factor 5); the size of organizations (Factor 6) and the benefits of 
competitiveness inherent in e-Procurement (Factor 7). 

Predictors of e-Procurement adoption  

In order to investigate the factors that contribute the most to explaining e-Procurement use in the 
survey, a CATREG analysis was also conducted. The result shows that the model having R2 = 0.595 
explained around 60% of variance in the decision to use e-Procurement by the participants with F 
(34.0, 37) =15.93 P < 0.000. The coefficients of the regression analysis are presented in Table 4. 

Table 4: Coefficients of the Multiple Regression Analysis 
Coefficients 
 Standardized 

Coefficients 
df F Sig. 

Beta Bootstrap 
(1000) 

Estimate of 
Std. Error 

Benefits of e-Procurement ( Factor 1)  0.788 0.092 5 0.301 0.000* 
Industry disposition on e-Procurement (Factor 2) -0.221 0.103 5 1.156 0.070 
Organizational characteristics (Factor 3) 0.324 0.210 5 0.183 0.000* 
The complexity and need to align with global trend in the use of e-
procurement technologies (Factor 4) 

0.271 0.255 4 1.653 0.942 

Availability and cost of e-Procurement Applications (Factor 5) 0.487 0.021 4 0.254 0.001* 
The Size of  Organization (Factor 6) -0.451 0.119 3 1.230 0.001* 
Benefits of Competitiveness inherent in e-Procurement (Factor 7) -0.127 0.182 2 0.825 0.188 
Level of awareness on e-Procurement 0.643 0.272 1 1.854 0.000* 
Type of Organization 0.100 0.061 1 0.835 0.840 
Sector of Procurement Experience 0.025 0.078 2 1.541 0.855 
Age Organization -0.012 0.061 1 0.123 0.568 

*significant predictors  

It is evident in Table 4 that five factors emerged as the significant predictors and contributed the 
most to explaining e-Procurement use by the 84 respondents in the survey. The factors are: the 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 63 
 

benefits of e-Procurement use (Factor 1); organizational characteristics (Factor 3), the availability 
and cost of e-procurement technologies (Factor 5); the size of organization (Factor 6); and the level 
of awareness on e-Procurement in construction (Factor 7).  

Discussion 
The findings of this study highlighted three key issues, which are further discussed in this section of 
the paper. First, the study found out that the first three factors with the highest influence on the 
decision to use e-Procurement by the 84 respondents are related to the benefits of e-Procurement in 
construction. This result corresponds with previous studies (Issa et al., 2003; Rankin et al., 2006; Zuo 
and Seo, 2006; Eadie et al., 2007; 2010; 2011) which also showed that the perceived benefits of e-
Procurement was the reason why most organizations in the construction industry use it. This 
suggests that the decision to adopt e-Procurement by organizations in the NBI is partly influenced 
by the associated benefits in enhancing efficiency in project delivery, eliminating geographic barrier 
to participation in procurement activities and improving effective communication among project 
team members. This appears to be consistent with the research of Lavelle and Bardon (2009) which 
states that managing the entire construction procurement process electronically can promote 
efficiency and effectiveness in project delivery.  

Second is that the study also found that although the researchers used 29 factors to investigate the 
decision to adopt e-Procurement as shown in Table 2, the practitioners understood these factors in 
seven key dimensions (Factors 1-7) as presented in Table 3. Examination of these dimensions shows 
that the first (Factor 1), fourth (Factor 4) and seventh dimensions (Factor 7) deal with the attributes 
of e-Procurement technologies (i.e.  technological factors). In fact, most of the factors loaded on 
these three dimensions are  the relative advantages of e-Procurement over the paper-based method 
as identified in previous studies (see Teo et al., 2009 and Eadie, et al., 2011). Therefore, apart from 
providing support to the TOE framework on the role of technological factors (Tornatzky and 
Fleischer, 1990), this finding is also consistent with Rogers’ DOI theory on the role of the attributes 
of innovation in its diffusion and adoption as previously highlighted. Similarly, the third (Factor 3) 
and sixth (Factor 6) dimensions deal with organizational characteristics, while the second and fifth 
dimensions (Factors 2 and 5) are environmental factors. These findings are also in line with the 
existing literature that shows that organizational and environmental factors play prominent roles in 
influencing organizations’ decision to adopt innovations as encapsulated in the TOE framework 
(Tornatzky and Fleischer 1990). Specifically, the emergence of size of the organizations as one of the 
dimensions in the survey may further validate the finding by Teo et al. (2009) and Eadie, et al. (2011) 
on the influence of the size of firms on e-Procurement adoption in Singapore and the UK, 
respectively. 

Furthermore, in support of the assumption in the conceptual framework of this study (Figure 1), the 
need to align with the global practice in e-Procurement use in other industries also emerged as one 
of the factors in the fourth dimension. This suggests that the decision to use e-Procurement by the 
84 respondents can also be linked to the desire to align with current global practice in the use of e-
Procurement in supply chain management in the manufacturing, transportation, retailing and other 
industrial sectors. 

Lastly, the study also revealed that the benefits of e-Procurement use; organizational characteristics; 
availability and cost of e-Procurement technologies; size of organization and the level of awareness 
of e-Procurement in construction were the significant predictors of e-Procurement adoption in the 
NBI. This result is understandable since these predictors have links to the dimensions identified in 
the exploratory factor analysis.  However, in terms of their contribution to explaining the decision to 
use e-Procurement by 39.4% of the respondents in the survey, it is clear that the benefits associated 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 64 
 

with e-Procurement use contributed most. This result was as expected given that existing studies 
(Ganasekaran and Ngai, 2008; Teo et al., 2009; Le et al., 2012; Bauasa et al., 2013; Bilali and Bwisa, 
2015) have shown that the strategic, opportunistic and operational benefits of e-Procurement in 
supply chain management were the key drivers of e-Procurement use in the different industrial 
sectors. The second factor with the highest contribution is the level of awareness of e-Procurement 
in construction among the participants. The emergence of this factor was also as expected as a high 
level (75%) of awareness on e-Procurement in construction was observed among the respondents. 
In fact, this result is in line with the research of Rogers (2003) indicating that awareness was the first 
in the five phases of the decision to adopt an innovation. This implies that organizations can only 
make the decision to use an innovation if they know of its existence. 

The third most important factor influencing e-Procurement adoption was the availability and cost of 
e-Procurement applications. Again, this finding is consistent with previous studies (Samuelson, 2008 
and Khalil and Waly, 2015) showing that stakeholders in the construction industry have generally 
expressed fears that the lack of access to compatible software applications and technically functional 
systems at an affordable cost constitute a serious impediment to e-Procurement adoption in 
construction. Therefore, the availability and cost of e-Procurement applications have a strong 
influence on the decision by organizations to use them. 

Limitations of the study  
The first limitation of this study is associated with the bias of the respondents, which is very 
common to questionnaire surveys. It is most likely that the quality of data obtained in this research is 
subject to the perspectives and biases of the respondents in the survey. In rating the factors 
influencing the decision by their organizations to adopt e-Procurement, the respondents may have 
given biased ratings based on their personality and other influences associated with the different 
roles they play and levels of employment in their organizations. The second limitation is the way this 
research was conducted. The research approach was limited in terms of sample size, scale of 
measurement used and the number of variables investigated in this study. Therefore, future studies 
might consider including more variables. 

Conclusion 
This study examined the factors influencing e-Procurement adoption in the NBI. Based on the 
findings the following conclusions are drawn. First is that the three most important factors in the 
decision by organizations to adopt e-Procurement are the perceived benefits of e-Procurement in 
enhancing efficiency in job delivery, eliminating geographic barriers to the participation in 
construction procurement activities, and effective communication between project team members. 
The second conclusion is that whereas the researchers viewed the factors that can influence e-
Procurement adoption from four main dimensions (attributes of the technology, organization and 
environment factors, and the influence of other industries), practitioners in the NBI understood the 
different factors from seven key dimensions. The last conclusion is that the factors that contribute 
the most to explaining e-Procurement adoption in the NBI are the benefits of e-Procurement use; 
level of awareness of e-Procurement use in construction; and the availability and cost of e-
Procurement technologies and tools.  

The implications of these findings are that, as is true in other countries where e-Procurement has 
been adopted in construction, top of the list of the factors that influenced the decision by 
organizations in the NBI to adopt e-Procurement are its perceived benefits and relative advantages 
over the paper-based methods. The study also implies that there is a difference in the ways in which 
researchers and users view the factors influencing the decision to adopt e-Procurement in the 



Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 65 
 

building industry. This means that construction researchers must thrive to align their thoughts with 
those of practitioners in the industry for better results in their research endeavours. Another 
implication of this study is that for organizations that plan to adopt e-Procurement in the future, it is 
important that they understand the benefits, the availability and cost of e-Procurement technologies 
and tools. Therefore, to ensure a critical mass uptake of e-Procurement and maximize its benefits in 
the NBI there is a need for an increased level of awareness on e-Procurement use through 
workshops/conferences and professional associations; and the availability of e-Procurement 
technologies and tools at affordable cost.  

References 
Aduwo, E.B., Ibem, E.O., Tunji-Olayeni, P., Uwakonye; O.U. and Ayo-Vaughan, E.K. (2016).   Barriers to the Uptake 

of e-Procurement in the Nigerian Building Industry. International Journal of Applied Theoretical and Applied 
Information Technology (IJATAIT) 89(1), p.133-147 

Azadegan, A. and Teich, J. (2010) Effective Benchmarking of Innovation Adoptions- A Theoretical Framework for e-
Procurement Technologies. Benchmarking: An International Journal, 17(4), p.472-490. doi: 
https://doi.org/10.1108/14635771011060558  

Bauasa, P.O., Kourtidis, S., Liljemo, K., Loozen, N., Rodrigues F.J. and Snaprud, M. (2013) E-procurement Golden 
Book of Good Practice. Retrieved from www.pwc.be. On 15th May 2014 

Bilali, J and Bwisa, H. (2015) Factors influencing the Adoption of e-Procurement: A case of Garissa County 
Government. The Strategic Journal of Business & Change Management, 35, p662-682 

Bird, D.K. (2009) The use of Questionnaires for Acquiring information on Public Perception of Natural hazards and 
risk mitigation – a review of current knowledge and practice. Nat. Hazards Earth Syst. Sci., 9, p.1307–1325. doi: 
https://doi.org/10.5194/nhess-9-1307-2009 

Bulmer, M. (2004) Sage Benchmarks in Social Science Research Methods, in Questionnaires, 1st edition edited by: 
Bulmer, M., Sage Publications, London, p.354.  

Croom, S. and Brandon-Jones, A. (2004) E-Procurement: Key issues in e-Procurement implementation and operation in 
the public sector, 13th International Purchasing & Supply Education & Research Association (IPSERA) 
Conference, April 4-7, Catania, Italy. 

Daud, N.M., Mohammad, N., Azmi, A.E. and Mohamed, I.S. (2013) Factors influencing the usage of e-Procurement 
among contractor companies in Malaysia. Business and Management Quarterly Review, 4(3&4), p.62-80 

Eadie, R., Perera, S., Heaney, G. and Carlisle, J. (2007) Drivers and Barriers to Public Sector e-procurement within 
Northen Ireland’s Construction Industry. Journal of Information Technology in Construction, 12, p.103-120 

Eadie, R., Perera, S. and Heaney, G. (2010) A cross-discipline comparison of rankings for e- procurement drivers and 
barriers within UK Construction Organizations, Journal of Information Technology in Construction, 15, p.217-23 

Eadie, R., Perera, S. and Heaney, G. (2011) Analysis of the use of E-Procurement in the Public and Private Sectors of 
the UK construction Industry. Journal of Information Technology in Construction (ITcon), 16, p.669-686 

Farzin, S. and Nezhad, H. (2010) E-Procurement, the Golden Key to Optimizing the Supply Chains System. World 
Academy of Science, Engineering and Technology, International Science Index42, 4(6), p.449-456 

Gunasekaran, A., McGaughey, R.E., Ngai, E.W.T. and Rai, B.K. (2009) E-Procurement Adoption in the Southcoast 
SMEs, International Journal of Production Economics, 122(1), p.161-175. doi: 
https://doi.org/10.1016/j.ijpe.2009.05.013 

Gunasekaran, A. and Ngai, E.W.T. (2008) Adoption of e-Procurement in Hong Kong: An empirical research, 
International Journal of Production Economics, 113(1), 159-175. doi: https://doi.org/10.1016/j.ijpe.2007.04.012 

Hashim, N., Said I., and Idris. A.B.M. (2014) e-Procurement Implementation in Maysian Construction Industry. Aust. J. 
Basic & Appl. Sci., 8(6), p.231-238 

Hussain, M., Castaldi, R., and Cholette, S. (2006) Determinants of wine consumption of US Consumers: an econometric 
analysis. International Journal of Wine Business Research, 19 (1), p.49-62. doi: 
https://doi.org/10.1108/17511060710740343  

https://doi.org/10.1108/14635771011060558
http://www.pwc.be/
https://doi.org/10.5194/nhess-9-1307-2009
https://doi.org/10.1016/j.ijpe.2009.05.013
https://doi.org/10.1016/j.ijpe.2007.04.012
https://doi.org/10.1108/17511060710740343


Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 66 
 

Ibem, E.O and Laryea, S. (2015) e-Procurement use in the South African construction industry. Journal of Information 
Technology in Construction 20, p.364-384 

Isikdag, U., Underwood, J., Ezcan, V., and Arslan, S (2011) Barriers to e-procurement in Turkish AEC industry. 
Proceedings of the CIB W78-W102 2011: International Conference – Sophia Antipolis, France, 26-28 October 

Issa, R.R.A., Flood, I. and Caglasin, G. (2003) Survey of E-Business Implementation in the US Construction Industry. 
Journal of Information Technology in Construction, 8, p.15-28.  

Khalil, C.A and Waly, A.F. (2015) Challenges and Obstacles facing Tenderers Adopting e- Tendering in the Public sector 
of the Construction Industry in Egypt. 5th International/11th Construction Specialty Conference, Vancouver, 
British Columbia June 8 to June 10, Retrieved from: 
https://open.library.ubc.ca/cIRcle/collections/52660/items/1.0076349 on 25th November, 2015 

Klein, K. J., Conn, A. B., & Sorra, J. S. (2001) Implementing Computerized Technology: An Organizational Analysis. 
Journal of Applied Psychology, 86(5), p.811–824. doi: https://doi.org/10.1037/0021-9010.86.5.811 

Laryea, S. and Ibem, E.O. (2014) Patterns of Technological Innovation in the use of e- Procurement in Construction. 
Journal of Information Technology in Construction, 19, p.104-125, 

Lavelle, D and Bardon, A. (2009) E-tendering in Construction: Time for a Change? Built Environment Research Paper, 
2(2), p.104-112 

Le, V. H., Rowe, F., Truex, D., and Huynh, M. Q. (2012) An Empirical Study of Determinants of E-Commerce 
Adoption in SMEs in Vietnam: An Economy in Transition, Journal of Global Information Management, 20(3), 
p.23-54. doi: https://doi.org/10.4018/jgim.2012070102 

Mustonen-Ollila, E. and Lyytinen, K. (2003) Why organizations adopt Information System process innovations: a 
longitudinal study using Diffusion of Innovation theory. Information Systems Journal, 13(3), p.275-297. doi: 
https://doi.org/10.1046/j.1365-2575.2003.00141.x 

Oliveira, T and Martins, M.F (2011) Literature Review of Information Technology Adoption Models at Firm Level. The 
Electronic Journal Information Systems Evaluation, 14(1), p.110- 121 

Oyediran, O.S. and Akintola, A.A (2011) A Survey of the State of the Art of E-Tendering in Nigeria. Journal of 
Information Technology in Construction 16, p.557-576. 

Pallant, J. (2011) SPSS survival manual-a step-by-step guide to data analysis using SPSS (4th ed.). Australia: Allen and 
Unwin 

Rankin, J., Chen, Y. and Christian, A. (2006) E-procurement in the Atlantic Canadian AEC industry, Journal of 
Information Technology in Construction, 11, p.75-87 

Rogers, E.M. (2003) Diffusion of Innovations (5th ed.). New York: Free Press 

Samuelson, O. (2008) The IT-Barometer – A Decade’s Development of its Use in The Swedish Construction Sector. 
Journal of Information Technology in Construction, 13, p.1-19. 

Songip, A.R., Lau, B. H., Jusoff, K. and Ramli, H.N. (2013) A Working Integrated Model for the Diffusion of 
Construction Innovation. American Journal of Applied Sciences, 10(2), p.147-158. doi: 
https://doi.org/10.3844/ajassp.2013.147.158  

Teo, T.S.H., Lin, S. and Lai, K. (2009) Adopters and non-adopters of e-Procurement in Singapore: An empirical study, 
Omega, 37(5), p.972-987. doi: https://doi.org/10.1016/j.omega.2008.11.001  

Tornatzky, L. and Fleischer, M. (1990) The Process of Technology Innovation, Lexington, MA, Lexington Books 

Tran, Q., Huang, D., Liu, B. and Ekram, H.M. (2011) A Construction Enterprise's Readiness Level in Implementing E-
Procurement: A System Engineering Assessment Model, Systems Engineering Procedia, 2, p.131-141. doi: 
https://doi.org/10.1016/j.sepro.2011.10.016 

Tran, Q. and, Huang, D. (2014) E-Procurement Institutionalization in Construction Industry in Developing Countries: 
A Model and Instrument. WSEAS Transactions on Computers, 13, p.152-176. 

Williams, S.P and Hardy, C. (2005) Public e-Procurement as Socio-technical Change. Strategic Change. 14, p.273-281. 
doi: https://doi.org/10.1002/jsc.728 

https://open.library.ubc.ca/cIRcle/collections/52660/items/1.0076349
https://doi.org/10.1037/0021-9010.86.5.811
https://doi.org/10.4018/jgim.2012070102
https://doi.org/10.1046/j.1365-2575.2003.00141.x
https://doi.org/10.3844/ajassp.2013.147.158
https://doi.org/10.1016/j.omega.2008.11.001
https://doi.org/10.1016/j.sepro.2011.10.016
https://doi.org/10.1002/jsc.728


Construction Economics and Building, 16(4), 54-67  
 

Ibem, Aduwo, Tunji-Olayeni, Ayo-Vaughan and Uwakonye 67 
 

Woodside, A. G., and Biemans, W.G. (2005) Modeling innovation, manufacturing, diffusion and adoption/rejection 
processes. Journal of Business & Industrial Marketing, 20(7), p.380–393. doi: 
https://doi.org/10.1108/08858620510628614 

Zuo, P.X.W and Seo, Y. (2006) Effective Applications of E-Commerce Technologies in Construction Supply Chain: 
Current Practice and Future Improvement. Journal of Information Technology in Construction, 11, p.127-147 

https://doi.org/10.1108/08858620510628614

	Abstract
	Introduction
	Review of literature
	Theoretical background
	Factors influencing e-Procurement adoption in construction: a review of studies

	Research method
	Study findings
	Profiles of the participants and their organizations
	Level of awareness and extent of e-Procurement use
	Factors influencing e-Procurement use
	Dimensions of the factors influencing e-Procurement use
	Predictors of e-Procurement adoption

	Discussion
	Limitations of the study
	Conclusion
	References