The Value of Knowledge Sharing: Impact of Tacit and Explicit Knowledge Sharing on Team Performance of Scientists

Knowledge sharing that takes place among team members is a process of great relevance that builds ties and relationships which in turn results in positive organizational and team outcomes. However, as it is not usually formally included in the job descriptions and is not a formal part of organizations’ and team activities, it is considered to be an organization citizenship behavior. Our paper emphasizes significance of tacit and explicit knowledge sharing to team performance in the context of scientific cooperation. Positive relationship between tacit knowledge sharing and explicit knowledge sharing with team performance was found using linear regression. Furthermore, high levels of knowledge sharing and team performance were identified among scientists.


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ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. [33][34][35][36][37][38][39][40][41][42][43][44][45][46][47][48][49][50][51][52] and decision satisfaction (Mesmer-Magnus et al., 2009). As a result in the extensive research on knowledge management individual knowledge sharing has justifiably held an important position and therefore has been a subject of many studies. In those studies knowledge is usually divided into two types: explicit and tacit. Explicit knowledge usually refers to the type of knowledge that can easily be communicated with words, codified and subsequently shared. Explicit knowledge is easy to capture and usually comes in a somewhat tangible form, generally as documents, PPTs, manuals. Sharing of explicit knowledge is usually being facilitated by information technology. Tacit knowledge or know-how (Kogut and Zander, 1992;Grant, 1996;) on the other hand is related to an individual's experience and thoughts (Alavi & Leidner,2001)and is subject to social interaction (Käser & Miles, 2002;Nonaka, 1994) and friendship (Osterloh & Frey, 2000). Team members' sharing of tacit knowledge is reinforced in situations in which they interact face-to face in the context of project work. (Howells, Jeremy, 1996). Geographical proximity of team members, common language and mutual trust all affect the level of tacit knowledge utilization on projects, which can in turn affect team performance. (Koskinen, Pihlanto & Vanharanta, 2003). According to the SECI model, illustrating knowledge creation, developed by Nonaka and Takeuchi, a nonstop interaction between individuals occurs in which knowledge is being continuously converted from tacit to explicit and from explicit to tacit. SECI process is comprised of four knowledge creation modes: socialization (tacit to tacit), combination (explicit to explicit), externalization (tacit to explicit), and internalization (explicit to tacit). As tacit knowledge is internal, and embedded in people, human interactions are essential for its transfer. So in the socialization process tacit knowledge in the form of experience or skills can be transferred between individuals.
Externalization, on the other hand is a process of making tacit knowledge explicit. For example, organizations will try to capture what the employees know through creating platforms where they can interact and share knowledge, usually internal forums for communities of practice where they can exchange knowledge. Through synthesizing the body of knowledge, to some extent, but not fully will the process of externalization be successful. Early knowledge management practice and research have been mostly focused on managing explicit knowledge in forms of documents, forms, procedures and etc. creating huge repositories of knowledge and relying on IT to facilitate knowledge sharing processes, and enhance the collective memory of an organization However the assumption that when technology for knowledge sharing is implemented that employees will share knowledge is showed to be false, and often failed to make tacit knowledge explicit due to the cognitive nature of tacit knowledge (Pawlowski and Robey, 2004). Sharing of knowledge does not only depend on the technology factor but on many others. Furthermore, technology itself often fails to capture the most important component of knowledge, the tacit one. Our efforts are aimed at examining both sharing of tacit and explicit knowledge. We posit that sharing of information and codified knowledge facilitated by information technology, especially on the projects which are to some extent virtual, as well as tacit knowledge, ingrained in daily routines and embedded in people through the process of socialization are relevant for team performance. Based on this proposition we build our research model. 36 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52

Research model and hypotheses
In the establishment of our research model we tested the influence of both tacit and explicit knowledge sharing on team performance. We also posit that scientists intensively share both tacit and explicit knowledge, consequently resulting in high team performance. Prior research has widely demonstrated positive effects of knowledge sharing on team performance (Argote and Ingram 2000;Cummings 2004;Hansen 2002;Choi et al., 2010). 3 . 1 K no w l e d g e s h ar i ng a nd t e am p e r fo r m a nc e 3 . 1 . 1 E x p l i c i t k n o w l e d g e s h a r i n g Explicit knowledge sharing encompassing various formal and systematically stored, articulated and disseminated information (Becerra-Fernandez & Sabherwal, 2001) is beneficial for workers, teams and organizations. However often redundancy of information is present, as these systems accumulate wide knowledge, still with proper filtering mechanisms used to distinguish relevant from irrelevant knowledge, team members and workers can easily get required information.
Organizations have built systems for managing explicit knowledge, knowledge platforms document repositories, search engines and intranets (Hansen and Haas 2001) making information widely available and easily accessible.). In their study indirect influence of knowledge sharing through knowledge application was found, but no direct effect of knowledge sharing on team performance (Choi et al.,2010). Through the means of IT support collaboration and communication contributing to the building of TMS in teams is fostered. (Choi et al., 2010). As a result team members can decrease the time of search and creation by quickly accessing and using collective knowledge made explicit, which in turn will enhance their individual efficiency and consequently team performance. Many studies have shown relationship between effective explicit knowledge sharing, or information sharing and team performance (Greenhalgh & Chapman, 1998;Schittekatte & Van Hiel, 1996). According to the meta-analysis on information sharing conducted by (Mesmer-Magnus et al., 2009) two characteristics of sharing are relevant. Meta-analytic results from 72 studies show the positive link of information sharing to team performance, cohesion, decision satisfaction, and knowledge integration.. By using distinctive knowledge from their members in order to gain advantage, they will enlarge the knowledge fund which would enhance team task performance. Secondly, the concept of openness in explicit knowledge sharing could provide more opportunities to share unique knowledge and contributing to the trusting climate which would improve team socioemotional outcomes and in turn team task performance (Beal, Cohen, Burke, & McLendon, 2003).

. 1 . 2 T a c i t k n o w l e d g e s h a r i n g
Via sharing of tacit knowledge which is embedded in people, individuals provide their valuable knowledge and tap into what others know. Tacit knowledge has a crucial role in the organizational performance improvement (Small and Sage, 2006;Reychav and Weisberg, 2009). Through the process of socialization knowledge can be transferred from one person to another. Expertise, skills or experience which are difficult to capture and codify can be shared through creating mentoring programs or various workshops which will create shared mental modes that would ease the coordination and collaboration process resulting in better utilization of knowledge and higher team 37 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 performance (Marks et al., 2000).
Transactive memory of "who knows what" has had a positive relationship with team performance due to improved coordination (Wegner et al., 1987). Transactive memory system (TMS) refers to a shared mental mode of the collective indicating which individuals know certain things and which individuals know who knows certain things (Jarvenpaa and Majchrzak, 2008) and it encompasses encoding, storage, and retrieval of knowledge from different spheres (Wegner et al., 1987) Through building a transactive memory system specialization of knowledge together with trust in knowledge of others and knowledge coordination according to the task structure are achieved (Wegner et al.,1987). Elements of knowledge sharing, such us feedback, communication influence the development of TMS (Hollingshead 1998a(Hollingshead , 1998bMoreland et al., 1996) which in turn enhances team performance (Liang et al., 1995;Lewis & Kyle, 2004;Kanawattanachai & Yoo, 2002;Faraj & Sproull, 2000). Having an insight in the knowledge of others, a best practice can be recognized and implemented by other individuals. Also, the shortening of a learning curve for younger scientists would lead to higher efficiency and improved team performance. In the environment where people are trusting, open, interacting and share their tacit knowledge without the fear of losing their own unique value, can result in higher collective performance (Käser & Miles, 2002) and building of a strong team identity and positive team characteristics that can lead to a superior team performance and in turn generate positive outcomes, such as innovation or financial performance, either in the context of projects or organizational context. Tacit knowledge is considered an important source of competitive advantage for individuals, teams and organizations as it is specific to the context, personal and thus hard to imitate (Berman, Down, & Hill, 2002). Taking all the ample evidence into consideration on the existing relationship between knowledge sharing and team performance, we posit that in the context of scientific project cooperation significance is present. Therefore we hypothesize: H1 Sharing of tacit knowledge positively influences team performance H2 Sharing of explicit knowledge positively influences team performance 3 . 1 . 3 L e v e l o f k n o w l e d g e s h a r i n g a n d t e a m p e r f o r m a n c e Team performance has exhibited its value in the context of innovation, competitive advantage, quality etc., and has received much attention in the prior research (Cohen & Bailey 1997).For project work teams are usually constructed and play an important role in knowledge-based organizations as they are often utilized to work on complex tasks (Cummings 2004;Rico et al. 2008). As knowledge has been recognized as a driver of innovation and a strategic asset, and in knowledge intensive groups and companies it has taken a central role in team performance. Knowledge workers on such projects are participating in intensive knowledge tasks, solving complex problems, have a high education and therefore through their collaborative efforts enhance team performance and drive innovation and other positive organizational outcomes. Knowledge workers tend to demonstrate flexibility, initiative, and higher job performance (Stewart & Barry, 1997;Davenport & Prusak, 1998). In a study of knowledge acquisition variables on financial and non-financial team performance, there was a positive relationship found, especially with a communication 38 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 understanding component (Politis, 2003).
In the context of scientific work knowledge sharing can hardly be put in the domain of organizational citizenship behavior. As for scientists tacit knowledge sharing is a matter of daily practice, in which they engage in knowledge intensive activities which require collaboration. Conducting experiments in the laboratory, use of equipment, close cooperation, joint publications and presentations of the project result, all encompass both sharing of tacit and explicit knowledge and are necessary for project completion. As scientists are characterized by a strong passion for practice and as knowledge sharing in the case of science projects cannot be considered organizational citizenship behavior. Free flow of knowledge and openness are basic principles of scientific cooperation, as science can be advanced through complete transparency and sharing.
Based on this we hypothesize:

Research methodology
In our investigation we applied a survey strategy for data collection by which we examined a sample of 277 members of project teams working on international research projects. Sample consists of knowledge-intensive projects aimed to solve complex problems through innovative solutions for which knowledge sharing is highly relevant. We focus on investigating international science and technology project team members' interaction and knowledge sharing. During the projects, the scientists from different countries worked together (from several months to several years), and were involved in knowledge intensive activities aimed to result in relevant scientific findings. Most of the survey participants were employees of research institutes and universities in Croatia, which worked on international science and technology projects in the fields of semiconductor industry, information technology, electronics, photonics, petrochemicals, medical science, biochemistry, etc. Scientists from various research institutes in Zagreb, and faculty members of University of Zagreb that were members of project teams under our study were invited to participate in the survey. With the intention of avoiding the threat of common method, bias data were collected from two different sources, both project managers (53.8%) and project team members (46.9%). Approximately 45.9% of the team members in the final sample were male. A majority of the group members (62.5%) were between the ages of 40 and 49 and over. The main means of communication during the project involved both face-to-face communication and information technology (82.7%). More than one third of members had over 20 years of work experience (36.5%), whereas 23.8 percent of project participants had only up to 3 years of work experience, and the third largest group (20.9%) has worked for 13 to 19 years at the time of the data collection. Finally, vast majority of participants (89.2%) hold a PhD degree.At the time of the research majority of projects had been completed, (55.6%), some were in the second year (18.1%) and some in the third (16.6%). Almost half of teams (49.8%) consisted of 5-10 members, while team with less than 5 members formed 30.0% of all groups. Respondents all being of Croatian nationality cooperated with scientists form different 39 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 countries. A large proportion of respondents (33.2 %) were involved in projects, which encompassed team members of more than two nationalities, whereas 23.1 percent cooperated with Croatian scientists only. The majority research projects belong to Life Science (31.6%), Physical Science (28.7%) and Social Science (23.2%) fields. All the descriptive features of the projects and the respondents are exhibited in Table 4-1.

. 1 Me as ur e m e n t d e v e l o p m e nt
All the variables were operationalized and measured with existing scales which were validated by other researchers. To normalize the data, we adjusted the scale wording so all items were measured with a 7 point Likert scale with anchors being 1 = strongly disagree, 2 = somewhat disagree, 3 = disagree, 4 = neutral, 5 = somewhat agree, 6 = agree, 7 = strongly agree. The constructs in our study were measured with items adopted from previous studies utilizing already developed scales.

Team performance
Team performance was measured with the adjusted scale of Baruch and Lin (2012) who adopted the measurements for Team performance from Stewart and Barrick (2000). Both team behaviors and team outcomes make up team performance and were included in the original version of scale measuring. In our study we assessed quality of work, quantity of work, planning and allocation of resources, overall team performance. Items that were dropped from the original measurement included interpersonal skills, knowledge of tasks, initiative and commitment to the team.

Explicit and tacit knowledge sharing
We assessed explicit and tacit knowledge sharing with items adopted from Wang and Wang (2012) who reported that they operationalized explicit and tacit knowledge sharing variable by combining items from multiple sources (Reychav & Weisberg, 2010;Liebowitz, 1999;Alavi & Leidner, 2001) in order to capture the essence of the constructs. Six-item scale used to measure explicit knowledge sharing was slightly modified to suit the research setting of project work and encompassed practices of sharing reports, training and development programs, IT systems and general encouragement to share knowledge among project team members.
Tacit knowledge sharing measurement scale was assessed with items from Wang and Wang (2012) who had constructed it by linking items from different studies (Bock, Zmud, Kim, & Lee, 2005; Holste & Fields, 2010; C.P. Lin,2007;H.F. Lin, 2007;Reychav & Weisberg, 2010). Again we adjusted the item wording to fit the context of project member interaction and knowledge sharing context. Used items refer to project member experience, know-where and know-who, expertize and lessons learned from failed projects. Normality tests (Kolmogorov -Smirnov and Shapiro -Wilk) were performed on data. The results are shown in Table 5-1. In those tests, null hypothesis is that data is normally distributed. So, if the obtained coefficients are not significant, null hypothesis that data fits the normal distribution well cannot be rejected. According to the results of both normality tests, explicit knowledge sharing measure, tacit knowledge sharing measure and team performance measure fit the normal distribution reasonably well. Normality has been further assessed using the Q-Q' plots for explicit knowledge sharing ( Figure 5-1), tacit knowledge sharing ( Figure 5-2) and Team performance ( Figure  5-3). For normally distributed data, Q-Q' plot should be approximately linear. All the plots support the claim that the data fits the normal distribution reasonably well for all three observed variables. Reliability of the data was assessed using the Cronbach alpha coefficients. Cronbach alpha coefficients over 0.7 are considered acceptable. Global Cronbach alpha coefficient of 0.825 was obtained, and Item-total statistics, including Cronbach alpha coefficients if item deleted were calculated. The results indicate that data reliability is at an acceptable level.

. S t a t is t i c a l a n a l y s is o f t he m o d e l
Since the theoretical model for each outcome predicted linear relationship between multiple predictors and the outcome, possible moderation effects and multilayered network architecture of mediated relationships, multiple linear regression was chosen as a tool to assess the model. The choice of multiple regression was appropriate given the ratio between the number of data points According to the proposed model, there is a positive linear relationship between team performance as an outcome and explicit and tacit knowledge sharing as input variables. In order to assess independent effects of explicit and tacit knowledge sharing on team performance, correlation analysis and multiple regression were performed on data points available after the removal of the data points with empty fields. Before performing the regression, assumption of linearity was confirmed and normal distribution of data points was ascertained. After performing the regression, choice of the model was justified by performing the residual plot. Descriptive statistics for explicit knowledge sharing, tacit knowledge sharing and team performance were calculated and are shown in table 5-3.

Correlation and regression analysis
As all the assumptions for Pearson product moment correlation were fulfilled, correlation analysis 44 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 was applied in order to predict the linear relationships between variables. Mutual correlation coefficients were calculated for all the variables and are shown in table 5-4. As expected, input variables explicit knowledge sharing and tacit knowledge sharing are moderately positively mutually correlated, as well as moderately positively correlated with the measured outcome variable team performance. Correlation coefficient r (275) = 0.74 between explicit and tacit knowledge sharing was obtained. Correlation coefficient can obtain values from -1 to 1 with values greater than 0 indicating positive association implying that as the value of one variable increases the value of the other variable increases correspondingly and values less than 0 indicating negative association. Correlations coefficients r (275) =0.56 and r (275) =0.54 for the correlation between explicit and tacit knowledge with team performance were recorded, respectively. According to the general guidelines the strength of association is from 0.5 -1.0 is large, 0.3 -0.5 is medium and 0.1 -0.3 is small. All the correlations were statistically significant (p<0.001). Attained positive correlations between all the observed measures confirm the theoretical expectations and convergent validity, which was previously verified by the factor analysis described in section 5.1.

Table 5-4 Correlation coefficients between explicit knowledge sharing, tacit knowledge sharing and team performance
Given that the Pearson product-moment correlation does not determine causality and does not differentiate between dependent and independent variables, regression analysis is utilized to test the predictive value of the model. In order to further elucidate and quantitatively express the influence of explicit and tacit knowledge on team performance, regression analysis of the effects of explicit knowledge and tacit knowledge on team performance was performed using multiple linear regression in SPSS. Since data fit the normal distribution reasonably well and given that all the assumptions were fulfilled, use of linear regression was justified. Table 5 -5 shows quality of the structural model fit. Model containing both explicit and tacit knowledge as predictors had the highest adjusted R 2 =0.341 among the candidate models and was therefore chosen. Predictive power of the model, expressed by the R 2 =0.345, indicates that 34.5 % of variance in team performance can be explained by tacit and explicit knowledge sharing. 45 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 Table 5-5 Team performance regression analysis Next, a relative contribution of each independent variable to the total variance explained is determined. Moderately small percentage of variance in team performance can be explained by varying explicit and tacit knowledge sharing, suggesting that additional effects unaccounted for by the model are present. Results of the regression analysis are shown in Table 5-5. There is a linear relationship between team performance as an outcome and explicit and tacit knowledge as predictors, quantitatively described by the (5-3) equation. Null hypothesis is defined as H0:=Team performance is not positively influenced by sharing of tacit knowledge. Since the mean regression coefficient for the effect of tacit knowledge sharing on team performance is 0.30, with 95% confidence interval in range [0.16, 0.45], null hypothesis can be rejected at p<0.001. Therefore, we can conclude that sharing of tacit knowledge positively influences Team performance. Null hypothesis is defined as H0:=Team performance is not positively influenced by sharing of explicit knowledge. Since the mean regression coefficient for the effect of explicit knowledge sharing on team performance is 0.33, with 95% confidence interval in range [0.20, 0.45], null hypothesis can be rejected at p<0.001. Therefore, we can conclude that sharing of explicit knowledge positively influences Team performance.

. 3 . 3 . T a c i t k n o w l e d g e s h a r i n g l e v e l b e t w e e n s c i e n t i s t s i s h i g h
Null hypothesis is defined as H0:=Tacit knowledge sharing level between scientists is not high (where not high would be defined as measure levels lower than 5). Since the mean of Tacit knowledge sharing is 5.77, with 95% confidence interval in range [5.67, 5.88], null hypothesis can be rejected at p<0.001. Therefore, we can conclude that tacit knowledge sharing level between scientists is high.

. 3 . 4 . E x p l i c i t k n o w l e d g e s h a r i n g b e t w e e n s c i e n t i s t s i s h i g h
Null hypothesis is defined as H0:=Explicit knowledge sharing level between scientists is not high (where not high would be defined as measure levels lower than 5). Since the mean of explicit knowledge sharing is 5.46, with 95% confidence interval in range [5.35, 5.56] null hypothesis can be rejected at p<0.001. Therefore, we can conclude that explicit knowledge sharing level between 47 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 scientists is high.

. 3 . . T e a m p e r f o r m a n c e i s h i g h
Null hypothesis is defined as H0:=Team performance is not high (where not high would be defined as measure levels lower than 5). Since the mean of team performance is 5.24, with 95% confidence interval in range [5.13, 5.34] null hypothesis can be rejected at p<0.05. Therefore, we can conclude that team performance is high. Null hypothesis is defined as H0:=Team performance is not positively influenced by sharing of explicit knowledge. Since the mean regression coefficient for the effect of explicit knowledge sharing on team performance is 0.33, with 95% confidence interval in range [0.20, 0.45], null hypothesis can be rejected at p<0.001. Therefore, we can conclude that sharing of explicit knowledge positively influences Team performance.

Discussion
Our findings are in line with what was found in prior studies, indicating that knowledge sharing exerts positive influence on team performance. In our study both tacit and explicit knowledge are significant for team performance. Teams that share knowledge freely and openly tend to be more effective. For that reason, research and academic institutions should emphasize the importance of knowledge sharing and apply management initiatives aimed at facilitating knowledge sharing. Effective knowledge sharing attained through proper management of various factors leads to a better team performance and other positive outcomes of the project. Principles of uniqueness and openness in regard to explicit knowledge sharing contribute to the team performance. (Nahapiet & Ghoshal, 1998). Furthermore, demonstrability, cooperation and discussion structure were found to enhance explicit knowledge sharing and informational interdependence, information distribution and team member heterogeneity were found to negatively affect knowledge sharing (Mortensen & Hinds, 2001).
Managers' efforts should be aimed at generating knowledge sharing conditions through leadership (Zollo & Winter, 2002) and various organizational mechanisms. For instance, fair treatment of employees, empowerment and carefully applied incentives can all be implemented to create the conditions conducive to fostering a knowledge sharing environment. Furthermore, when creating 48 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 management initiatives managers should take into consideration personal dispositions of teams and individuals, as personality and attitude play an important role in generating behavioral outcomes. In the socialization process effort is not being put in converting explicit into tacit knowledge. Information technology should therefore be aimed at facilitating socialization process and not in making tacit knowledge explicit. In recent years 2.0 technologies have emerged which are characterized by the richness of the media and might be more suitable for effective socialization process facilitated by IT. Through video tutorials, abundant internet learning resources and social networks that provide communities of practice a platform for intensive communication and idea exchange can all lead to improved team performance. As for governments financing policy, it should be adjusted to types of projects. In industries that possess a synthetic or symbolic knowledge base knowledge exchange in geographical closeness is highly significant because the interpretation of the knowledge has a tendency to vary between places, unlike in those industries with analytical knowledge base where knowledge is codified, more abstract and universal (Martin, Roman, and Jerker Moodysson, 2013). In order to increase the mobility of scientists and ensure there is sufficient face-to-face contact needed for effective knowledge exchange they should be doing so by keeping in mind the industry in question and nature of work.
Additionally, team performance and sharing of both tacit and explicit knowledge between scientists are on high levels, indicating that scientists working on projects engage in sharing of explicit knowledge such as information, data, product samples, materials, equipment and instruments despite their diverse characteristics and challenging environment. Having a limited face-to-face time as well as tacit knowledge embedded in people and facilitated through the exchange of team members and other technical experts of global teams. Through face-to face communication, electronic networks and other information technology it is possible to exchange knowledge essential to the success of the project. When it comes to distributed research and development process (Ahuja et al., 2000) and teams whose members are geographically spread; knowledge flows are enabled by properly utilized electronic networks and other computer mediated communication tools. Actually, experts with diverse backgrounds and training integrating information are more likely to reach quality solutions on complex projects (Mesmer-Magnus & DeChurch, 2009). By gaining access to expertise, ideas and information which are not available locally to project team members, they can benefit greatly by enhancing their knowledge base which in turn will improve team performance and drive innovation.

Conclusion
In so far, knowledge sharing has been tied to team performance in many instances, still in the context of scientific cooperation this investigation has not been attempted. Furthermore, the division of tacit and explicit knowledge sharing is required, as they are quite different in nature, and as they might not contribute to the team performance equally. This study, aimed to explore knowledge sharing between the project team members and to explain influence sharing of tacit and explicit knowledge have on team performance. In the attempt to achieve this goal we analyzed knowledge sharing between scientists, drawing lessons from government funded research projects.
Through the development of a framework an understanding of the relationships between sharing of 49 ISSN 1849-5664 (online) http://researchleap.com/category/international-journal-of-management-science-and-business-administration ISSN 1849-5419 (print) International Journal of Management Science And Business Administration Vol 1. No 2. January 2015., pp. 33-52 tacit and explicit knowledge sharing and team performance, in research project teams, had been achieved. In addition, we provided a first analysis of the current state of knowledge sharing on research projects in Croatia. The outcomes of this study shed light on knowledge sharing behavior between researchers, therefore, contributing towards the successful implementation of knowledge sharing initiatives as part of research project knowledge management as well as organizational knowledge management initiatives.